registrar@vssut.ac.in +91 8480441756

ବୀର ସୁରେନ୍ଦ୍ର ସାଏ ବୈଷୟିକ ବିଶ୍ୱବିଦ୍ୟାଳୟ

वीर सुरेंद्र साई प्रौद्योगिकी विश्वविद्यालय

Veer Surendra Sai University of Technology

All Publications

International Publications

    2026
  1. 3. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  2. 3. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  3. 3. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  4. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  5. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  6. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  7. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  8. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  9. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  10. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  11. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  12. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  13. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  14. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  15. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  16. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  17. Roy, S., Swain, S., Das, A., & Das, S. R. (2026). Performance of AlTiN- and AlTiSiN-coated carbide tools in dry turning of hardened AISI 4140 steel: A comparative investigation. Journal of Materials Engineering and Performance, 35(3), 2971–2992.
  18. 2. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  19. 2. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  20. 2. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  21. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  22. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  23. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  24. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  25. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  26. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  27. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  28. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  29. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  30. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  31. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  32. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  33. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  34. Mishra, S., Sahu, S. K., & Das, S. R. (2026). Comparative performance evaluation between conventional tool and textured tool in turning of AISI 6150 steel under minimum quantity lubrication. Journal of Materials Engineering and Performance, 1–20.
  35. 1. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  36. 1. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  37. 1. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  38. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  39. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  40. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  41. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  42. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  43. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  44. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  45. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  46. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  47. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  48. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  49. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  50. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
  51. Das, P. P., Padhiari, S., & Das, S. R. (2026). Experimental investigation and optimization of technological performance characteristics in 3D printing of ABS/PC composite polymer. Journal of Thermoplastic Composite Materials. Advance online publication.
    52. 2025
  52. 9. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  53. 9. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  54. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  55. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  56. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  57. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  58. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  59. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  60. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  61. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  62. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  63. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  64. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  65. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  66. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  67. Padhan, S., Das, A., & Das, S. R. (2025). Analysis, modelling and optimization on tool vibration in machining of Nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 11(4), 3926–3939.
  68. 8. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  69. 8. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  70. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  71. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  72. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  73. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  74. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  75. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  76. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  77. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  78. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  79. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  80. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  81. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  82. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  83. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2025). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters, 32(10), 2450133.
  84. 7. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  85. 7. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  86. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  87. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  88. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  89. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  90. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  91. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  92. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  93. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  94. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  95. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  96. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  97. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  98. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  99. Barik, E. S., Jena, P. C., Behera, R. K., Sethy, S., & Das, S. R. (2025). Experimental investigation and sustainability assessment in turning of newly developed AMMC (Al–Mg–Si–Cu–SiC) using coated carbide tool under minimum quantity lubrication. Arabian Journal for Science and Engineering, 50(22), 18777–18798.
  100. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  101. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  102. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  103. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  104. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  105. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  106. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  107. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
  108. Ghadei, B. P., Dhupal, D., Sahu, S. K., Jena, P. C., Das, A., & Das, S. R. (2025). Experimental investigation on surface modification of AA5754 alloy in electrical discharge coating using Cu–W composite electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47.
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  260. A. K. Behera, P. Mishra, T. R. Mahapatra, P. Mishra, D. Mishra (2025) Hybrid Epoxy/ Composites for Electronics Applications: Mechanical and Dry Sliding Wear Properties. JOM 77, 2612–2623. https://doi.org/10.1007/s11837-024-07118-9 (IF: 2.1, SCIE)
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  313. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
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  511. Pradhan, S., Samantaray, S. R., Dhupal, D., & Das, S. R. (2024). Comparative performance evaluation between AJM and hot-AJM during machining of zirconia ceramic using silicon carbide abrasives. Surface Review and Letters.
  512. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  513. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  514. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  515. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  516. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  517. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  518. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  519. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  520. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  521. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  522. 21. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  523. 21. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  524. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  525. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  526. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  527. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on surface roughness and power consumption for sustainability assessment in hard turning of HSLA steel with SPPP-AlTiSiN–coated carbide tool under various cooling conditions. Lubrication Science, 36(8), 571–594.
  528. 20. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  529. 20. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  530. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  531. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  532. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  533. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  534. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  535. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  536. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  537. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  538. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  539. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  540. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  541. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  542. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  543. Babu, M. N., Anandan, V., Thomas, R., Babu, M. D., Das, S. R., & Parthasarathi, N. L. (2024). The behaviour of carbon quantum dots and cryogenic cooling in turning of super duplex F53 steel. Wear, 558, 205575.
  544. I Rout, TR Mahapatra, P Mishra, D Mishra, and Samy R. Mahmoud (2024) Characterization and static responses of partially biodegradable hybrid composites: Experimental and numerical analysis, Structural Engineering and Mechanics. 92(5), 485-501. https://doi.org/10.12989/sem.2024.92.5.485 (IF: 2.2, SCIE)
  545. B. Dash, T. R. Mahapatra, P. Mishra, D. Mishra, S. R. Mahmoud, (2024) A Review of Computational Methods for Vibroacoustic Analysis of Advanced Material Structures. Archives of Computational Methods in Engineering. 1-25. Doi: 10.1007/s11831-024-10204-5. (IF: 9.7, SCIE)
  546. B. P. Mishra, D. Mishra, T. R. Mahapatra, P. K. Sahoo, P. Panda, (2024) Performance analysis of uncoated and coated (TiN-, TiAlN-) carbide drills in drilling graphene-reinforced GF/epoxy nanocomposites: Analytical and experimental study. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. 0(0). doi:10.1177/09544089241291001. (IF: 2.3, SCI)
  547. B. Dash, T. R. Mahapatra, D. Mishra, (2024) Numerical vibroacoustic analysis of multi-layered composite structure under hygrothermal loading using coupled FEM-IBEM micromechanical model. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 238(8): 3549-3577. doi:10.1177/09544062231205359. (IF: 1.8, SCI)
  548. B. P. Mishra, D. Mishra, P. Panda, P. Senapati, T. R. Mahapatra, (2024) Experimental investigation and FEA implementation on drilling of graphene reinforced GF/epoxy polymer nano composite laminate using coated and uncoated carbide drills. International Journal of Machining and Machinability of Materials 26:3, 193-222. (IF: 2.4, SCOPUS)
  549. S. Muduli, T. R. Mahapatra, A. V. K. Murty, S. R. Parimanik, D. Mishra, P. C. Padhi, (2024) Supervised Machine Learning Algorithms for Machinability Assessment of Graphene Reinforced Aluminium Metal Matrix Composites. Smart Technologies for Improved Performance of Manufacturing Systems and Services 163-180.
  550. L. Mishra, T. R. Mahapatra, D. Mishra, S. R. Parimanik, (2024) Investigation of laser micro-drilling machinability and performance optimization of polymer nanocomposites reinforced with different carbon allotropes. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. Vol. 238, No. 3. 1354-1371, doi:10.1177/09544089231158898. (IF: 2.4, SCI)
  551. B Dash, TR Mahapatra, P Mishra, D Mishra (2024) Hygrothermal sound radiation analysis of layered composite plate using HFEM-IBEM micromechanical model and experimental validation, Structural Engineering and Mechanics, Vol. 89, No. 3, 265-281, https://doi.org/10.12989/sem.2024.89.3.265, (IF: 2.2, SCIE, SCOPUS)
  552. D K Sahu, P. P. Tripathy, T. R. Mahapatra, P. Mishra, and D. Mishra (2024) Design optimization of structural component (hitch bracket of tractor): A reverse engineering approach, Structural Engineering and Mechanics, 89(5), 467-477, https://doi.org/10.12989/sem.2024.89.5.467, (IF: 2.2, SCIE, SCOPUS)
  553. I Rout, TR Mahapatra, P Mishra, D Mishra (2024) Free Vibration and Acoustic Responses of Partially Biodegradable Hybrid Composites: Numerical Analysis and Experimental Validation, Journal of Vibration Engineering and Technologies, https://doi.org/10.1007/s42417-023-01254-3, (IF: 2.7, SCIE, SCOPUS)
  554. L Mishra, TR Mahapatra, D Mishra, AK Rout (2024) Laser micro-drilling of CNT reinforced polymer nanocomposite: A parametric study using RSM and APSO, Advances in Materials Research 13 (1), 1-18, DOI: https://doi.org/10.12989/amr.2024.13.1.001, (IF: 3.8, ESCI, SCOPUS)
  555. B. Dash, T. R. Mahapatra, D. Mishra, (2024) Vibroacoustic Characterization of Multi-layered Composite Structure Under Hygrothermal Load Using Higher-Order FEM-IBEM Micromechanical Model. Journal of Vibration Engineering & Technologies, Vol. 12, No. 2, 1725-1751, doi: 10.1007/s42417-023-00939-z. (IF: 2.7, SCIE, SCOPUS)
  556. L Mishra, TR Mahapatra, D Mishra, P Mishra, PC Padhi (2024) Study of Nd: YAG laser micro-drilling machinability and parametric optimization of graphite/Epoxy and carbon black/Epoxy nanocomposites, Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems. 2024;0(0). doi:10.1177/23977914231217921, (IF: 4.1, ESCI, SCOPUS)
  557. J Das, AK Rout, SR Parimanik, I Rout, TR Mahapatra, D Mishra (2024) Dynamic Mechanical and Static Analysis of Kevlar Fiber Reinforced Epoxy Composites Incorporated with Egg Shell Particle, Suranaree Journal of Science and Technology. 31(1):010273(1-10), DOI: https://doi.org/10.55766/sujst-2024-01-e0892. (IF: 0.214, Scopus)
  558. L Mishra, TR Mahapatra, D Mishra, SR Parimanik, AK Rout (2024) Parametric optimization of hole quality in Nd: YAG laser drilled carbon black/epoxy composite by grey based whale optimization technique, Materials Today: Proceedings https://doi.org/10.1016/j.matpr.2024.02.022, (IF: 2.59, SCOPUS)
  559. SR Parimanik, AK Mahapatra, TR Mahapatra, D Mishra (2024) Parametric analysis of Nd: YAG laser welding of NiTi SMA wires using Taguchi quality loss and grey relational method, Materials Today: Proceedings https://doi.org/10.1016/j.matpr.2024.02.021, (IF: 2.59, SCOPUS)
    560. 2023
  560. M Das, SR Parimanik, TR Mahapatra, D Mishra, DK Sahu (2023) Characteristics, Machinability Modeling, and Machining Performance Improvement of Graphene Reinforced Al-MMC Using CRSM and Utility Method. Journal of Superhard Materials 45 (4), 266-292. Doi: 10.3103/S1063457623040020 (IF: 0.9, SCIE)
  561. I. Rout, T. R. Mahapatra, and D. Mishra, (2023) Synthesis and Characterization of Incense Stick Ash Filled Luffa cylindrica/Hair Fiber Reinforced Partially Biodegradable Composite. Fibers and Polymers 24, 1417–1430. doi: 10.1007/s12221-023-00123-w. (IF: 2.347, SCIE)
  562. S. R. Parimanik, T. R. Mahapatra, and D. Mishra, (2023) A Systematic Literature Review on Laser Welding of NiTi SMA, Lasers Manuf. Mater. Process., vol. 10, no.1, pp. 77-117, doi: 10.1007/s40516-022-00200-7. (IF: 1.673, SCOPUS)
  563. S. R. Parimanik, T. R. Mahapatra, D. Mishra, A. K. Rout, (2023) Optimisation of performance characteristics in laser welding of Nitinol wires using Taguchi and grey relation analysis, Advances in Materials and Processing Technologies, vol. 9, no. 1, pp. 186-195, doi: 10.1080/2374068X.2022.2088653. (IF: 4.73, SCOPUS)
  564. L Mishra, TR Mahapatra, D Mishra, SR Parimanik (2023) Machinability study, machining performance optimisation and sustainability assessment in laser micro-drilling of CNT/epoxy nanocomposite, International Journal of Machining and Machinability of Materials, 25 (2), 111-139, doi: 10.1504/IJMMM.2023.133377. (IF: 0.273, SCOPUS)
  565. M. Das, S. R. Parimanik, T. R. Mahapatra, D. Mishra, (2023) Effect of graphene reinforcement on the mechanical characteristics and machining performance of aluminium metal matrix composite, International Journal of Process Management and Benchmarking, vol. 14, no. 4, pp. 478-507, doi: 10.1504/IJPMB.2023.132216. (IF: 0.24, SCOPUS)
  566. S. Dash, T. R. Mahapatra, K. Mehar, I. Panigrahi, and D. Mishra, (2023) Finite element analysis of thermoelastic free vibration behaviour of hardcore higher-order doubly curved sandwich shell panel, International Journal of Structural Engineering, vol. 13, no. 1, pp. 80–108, doi: 10.1504/IJSTRUCTE.2023.126792. (IF: 1.309, SCOPUS)
  567. B. Dash, T. R. Mahapatra, D. Mishra, A. K. Rout, (2023) Acoustic radiation efficiencies of laminated composite structure under mechanical excitation and hygrothermal loading: Numerical analysis, Materials Today: Proceedings, 91 (1), 25-32 doi: 10.1016/j.matpr.2023.04.269. (IF: 2.59, SCOPUS)
  568. S. R. Parimanik, T. R. Mahapatra, D. Mishra and A. K. Rout, (2023) Dissimilar Laser Welding of NiTi Alloy with Ferrous and Non-ferrous Material: Optimization of Process Parameters, E3S Web of Conferences, 391, 01167, DOI: 10.1051/e3sconf/202339101167. (IF: 0.38, SCOPUS)
  569. A. Ekka, A. Panda, T. R. Mahapatra, D. Mishra, (2023) Erosion and wear analysis of fly ash filled GFRP composite, Materials Today: Proceedings, doi: 10.1016/j.matpr.2023.01.140. (IF: 2.59, SCOPUS)
  570. L. Mishra, T. R. Mahapatra, S. R. Parimanik, S. Dash, D. Mishra, (2023) Parametric Optimization in Nd:YAG Laser Micro-drilling of Carbon Black/Epoxy Composite Utilizing GRA and Response Surface Methodology. Lecture Notes in Mechanical Engineering. 917–927 Springer, Singapore. doi: 10.1007/978-981-99-2921-4_82. (IF: 0.19, SCOPUS)
  571. I. Rout, T. R. Mahapatra, A. K. Rout, D. Mishra, A. K. Rout, (2023) Study on Effect of Process Parameters on AJM of Partially Biodegradable Hybrid Composite Using TOPSIS Approach. Lecture Notes in Mechanical Engineering. 341–354, Springer, Singapore. doi: 10.1007/978-981-99-2921-4_32 (IF: 0.19, SCOPUS)
  572. 40. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  573. 40. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  574. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  575. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  576. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  577. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
  578. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
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  586. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., et al. (2023). Surface integrity in hard turning of AISI 4140 steel with nanofluid MQL. Lubricants, 11(2), 49.
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  588. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  589. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  590. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  591. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
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  596. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  597. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  598. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  599. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
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  601. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  602. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  603. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel using nanofluid-based MQL. Proceedings of the Institution of Mechanical Engineers, Part C.
  604. 38. Sharma, P., Soni, H., Sethy, S., Das, S. R., et al. (2023). Surface characterization of SAE 304 after WED cutting: Experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723–5732.
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  684. S.K. Sahu, N.K. Kund, Influence of slurry delivery rate and height from cooling slope outlet on solidification and structural behaviors of molded AZ91 magnesium alloy, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2023, 237(7), p. 1719–1727. (SCI) SAGE (Impact Factor = 2.0). https://doi.org/10.1177/09544062221133221
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  686. B Dash, TR Mahapatra, D Mishra (2023) Numerical vibroacoustic analysis of multi-layered composite structure under hygrothermal loading using coupled FEM-IBEM micromechanical model. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. doi: 10.1177/09544062231205359 (IF: 2.0, SCI)
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  688. D. K. Sahu, J. Dandsena, T. R. Mahapatra, and D. Mishra, (2022) Design and Characterization of Progressive Coil Spring for Suspension Systems, Journal of The Institution of Engineers (India): Series C, vol. 103, no. 4, pp. 705–715, doi: 10.1007/s40032-022-00817-9. (IF: 0.311, SCOPUS)
  689. I. Rout, T. R. Mahapatra, and D. Mishra, (2022) Abrasive Jet Machining of Incense Stick Ash Filled Luffa-Human Hair Based Sustainable Bio-composite Using Taguchi Based GRA, Journal of Natural Fibers, vol. 19, no. 16, pp. 15022–15034, doi: 10.1080/15440478.2022.2069631. (IF: 3.507, SCIE)
  690. I. Rout, T. R. Mahapatra, S. Sahoo, and D. Mishra, (2022) Dry Sliding Wear Behaviour Of Carbonated Fly Ash Filled Composite, Latin American Applied Research - An international journal, vol. 52 (4), 297-302, doi: 10.52292/j.laar.2022.880. (IF: 0.184, SCIE)
  691. L. Mishra, T. R. Mahapatra, and D. Mishra, (2022) Performance Evaluation and Sustainability Assessment in Laser Micro-drilling of Carbon Nanotube-Reinforced Polymer Matrix Composite Using MOORA and Whale Optimization Algorithm, Process Integration and Optimization for Sustainability, vol. 6, no. 3, pp. 603–620, doi: 10.1007/s41660-022-00234-6. (IF: 2.39, SCOPUS)
  692. L. Mishra, T. R. Mahapatra, D. Mishra, and S. K. Pattanaik, (2022) Machinability Analysis and Multiple Performance Optimization During Laser Micro-drilling of CNT Reinforced Polymer Nanocomposite, Lasers in Manufacturing and Materials Processing., vol. 9, no. 2, pp. 151–172, Jun. 2022, doi: 10.1007/s40516-022-00171-9. (IF: 1.673, SCOPUS)
  693. B. Das, S. R. Parimanik, T. R. Mahapatra, and D. Mishra, (2022) Machinability assessment of NiTinol shape memory alloy in electrochemical machining, International Journal of Machining and Machinability of Materials, vol. 24, no. 3–4, pp. 280–313, doi: 10.1504/IJMMM.2022.125200. (IF: 1.21, SCOPUS)
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  707. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., & Muduli, K. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix composite (Al + Si + Mg + Cu + SiC) produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1–22.
  708. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., & Muduli, K. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix composite (Al + Si + Mg + Cu + SiC) produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1–22.
  709. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., & Muduli, K. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix composite (Al + Si + Mg + Cu + SiC) produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1–22.
  710. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
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  714. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
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  717. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
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  729. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task-specific stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1).
  730. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task-specific stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1).
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  744. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  745. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  746. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
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  752. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  753. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  754. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  755. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  756. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  757. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  758. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
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  800. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  801. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  802. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  803. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  804. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  805. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  806. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  807. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  808. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  809. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  810. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  811. 48. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  812. 48. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  813. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  814. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  815. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  816. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  817. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  818. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  819. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  820. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  821. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al–22% SiC metal matrix composite: Surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 6(2), 223–251.
  822. 47. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  823. 47. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  824. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  825. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  826. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  827. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  828. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  829. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  830. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  831. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  832. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  833. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  834. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  835. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  836. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  837. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering.
  838. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  839. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  840. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  841. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  842. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  843. 46. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
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  845. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  846. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  847. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  848. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  849. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  850. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  851. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  852. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  853. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., & Gupta, N. K. (2022). Machine learning-based modeling in hard turning of AISI D6 steel. Surface Review and Letters, 29(10), 2250137.
  854. 45. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
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  857. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  858. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  859. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  860. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  861. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  862. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  863. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
  864. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
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  866. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Surface integrity investigation in hard turning using nanofluid-assisted MQL. Advances in Materials and Processing Technologies, 8(sup3), 1714–1729.
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  870. 44. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  871. 44. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  872. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  873. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  874. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  875. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  876. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  877. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  878. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  879. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  880. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  881. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  882. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  883. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  884. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  885. Rafighi, M., Özdemir, M., Şahinoğlu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and TOPSIS optimization in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  886. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  887. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  888. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  889. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  890. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  891. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
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  898. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
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  900. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  901. Babu, M. N., Anandan, V., Yildirim, C. V., Parthasarathi, N. L., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44.
  902. 42. Ibrahim, A. M. M., Omer, M. A. E., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using nano-additives. Alexandria Engineering Journal, 61(12), 10925–10938.
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  955. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning using SiAlON ceramic tool under different cutting conditions. Silicon, 13(1), 119–147.
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  983. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: Analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
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  987. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  988. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  989. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  990. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  991. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  992. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  993. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  994. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  995. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  996. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  997. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  998. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  999. 63. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  1000. 63. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  1001. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  1002. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wear of Al–Mg–Si–Cu–SiC composite produced by powder metallurgy method. Corrosion Reviews, 39(1), 63–75.
  1003. 62. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1004. 62. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1005. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1006. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1007. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1008. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1009. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1010. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1011. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1012. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1013. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1014. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1015. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1016. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1017. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1018. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization, and cost analysis in electrical discharge machining of Al–SiC metal matrix composite. Silicon, 13(4), 1017–1040.
  1019. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1020. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1021. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1022. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1023. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1024. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1025. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1026. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1027. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1028. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1029. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1030. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1031. 61. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1032. 61. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1033. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1034. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562–578.
  1035. 60. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1036. 60. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1037. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1038. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1039. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1040. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1041. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1042. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1043. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1044. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1045. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1046. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1047. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1048. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1049. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1050. Parida, S. P., Jena, P. C., & Das, S. R. (2021). Comparative stress analysis of suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies.
  1051. 59. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1052. 59. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1053. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1054. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1055. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1056. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1057. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1058. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1059. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1060. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1061. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1062. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1063. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1064. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1065. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1066. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed HAJM process during machining of hardstone quartz using hot silicon carbide abrasives. Silicon, 13(9), 2895–2919.
  1067. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1068. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1069. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1070. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1071. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1072. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1073. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1074. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1075. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1076. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1077. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1078. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1079. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1080. 58. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1081. 58. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1082. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al–22% SiC metal matrix composite. Revista de Metalurgia, 57(4), e210.
  1083. 57. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1084. 57. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1085. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1086. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1087. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1088. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1089. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1090. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1091. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1092. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1093. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1094. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1095. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1096. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1097. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1098. Dash, L., Padhan, S., Das, A., & Das, S. R. (2021). Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.
  1099. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1100. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1101. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1102. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1103. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1104. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1105. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1106. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1107. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1108. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1109. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1110. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  1111. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
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  1114. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
    1115. 2020
  1115. 77. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1116. 77. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1117. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1118. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1119. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1120. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1121. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1122. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1123. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1124. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1125. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1126. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1127. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1128. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1129. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1130. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  1131. 76. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1132. 76. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1133. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1134. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1135. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1136. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1137. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1138. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1139. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1140. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1141. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1142. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1143. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1144. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1145. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1146. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on material removal rate and depth of cut of micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005–2012.
  1147. Sharma, N., Mahapatra, T. R., Panda, S. K. and Katariya, P. V., (2020) Thermo-acoustic analysis of higher-order shear deformable laminated composite sandwich flat panel, Journal of Sandwich Structures & Materials, 22(5), pp. 1357-1385 DOI: 10.1177/1099636218784846 (IF: 3.9). SCI
  1148. B Dansana, TR Mahapatra, P Sahu, SK Sahu, (2020) Tribological and electrochemical corrosion performance analysis of Hastelloy C276 under different loading conditions, Materials Today: Proceedings, 24, 1434-1441, doi: 10.1016/j.matpr.2020.04.462. (IF: 2.59, SCOPUS)
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  1164. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling, and multi-response optimization in electrical discharge machining of Al–22% SiC metal matrix composite for minimization of surface roughness. Manufacturing Review, 7, 20.
  1165. 74. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
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  1168. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1169. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1170. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1171. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1172. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1173. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1174. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1175. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1176. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1177. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1178. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1179. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1180. Behera, R. K., & Das, S. R. (2020). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  1181. S Agarwal, B Dash, P Saini, N Sharma, TR Mahapatra, SK Panda, (2020) Vibroacoustic analysis of un-baffled layered composite plate under thermal environment, Materials Today: Proceedings, 24(2), 1020-1028, doi: 10.1016/j.matpr.2020.04.415. (IF: 2.59, SCOPUS)
  1182. S Sahoo, TR Mahapatra, N Priyadarshini, S Mahapatra, S Naik, (2020) Influence of water binder ratio on strength and acid resistance of concrete made up of mineral admixture as supplementary cementitious material, Materials Today: Proceedings, 26(2), 796-803, doi: 10.1016/j.matpr.2020.01.028. (IF: 2.59, SCOPUS)
  1183. 73. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
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  1186. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1187. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1188. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1189. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1190. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1191. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1192. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1193. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1194. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1195. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1196. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1197. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1198. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578.
  1199. 72. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
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  1202. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
  1203. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
  1204. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
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  1206. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
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  1211. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in finish dry hard turning with coated ceramic tool. Steel and Composite Structures, 34(5), 681–698.
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  1216. Jaypuria, S., Mahapatra, T.R., Tripathy, S., Nakhale, S., Gupta, S.K. (2020) Fuzzy C-means Clustering-Based ANFIS Regression Modeling of Hybrid Laser-TIG Fabrication, Lecture Notes in Mechanical Engineering, 2020, https://doi.org/10.1007/978-981-15-1307-7_70, pp. 617-624 (IF: 0.19, SCOPUS).
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  1220. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1221. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1222. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1223. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1224. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1225. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
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  1227. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1228. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1229. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1230. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1231. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
  1232. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291–320.
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  1236. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1237. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1238. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1239. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1240. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
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  1244. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1245. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1246. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1247. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1248. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard turning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1249. 69. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1250. 69. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1251. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1252. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1253. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1254. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1255. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1256. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1257. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1258. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1259. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1260. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1261. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1262. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1263. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1264. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified abrasive jet machining using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.
  1265. 68. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
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  1267. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1268. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1269. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1270. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1271. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1272. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1273. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1274. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1275. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1276. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1277. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1278. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1279. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
  1280. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838–2852.
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  1283. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1284. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1285. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1286. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1287. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1288. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1289. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1290. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1291. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1292. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1293. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1294. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1295. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
  1296. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning. Process Integration and Optimization for Sustainability, 4(4), 445–463.
    1297. 2019
  1297. 85. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1298. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1299. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1300. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1301. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1302. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1303. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1304. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1305. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1306. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1307. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1308. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1309. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1310. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1311. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Performance evaluation of aluminium oxide nanoparticles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. International Journal of Engineering Science and Technology.
  1312. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1313. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1314. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1315. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1316. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1317. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1318. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1319. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1320. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1321. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1322. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1323. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  1324. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
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  1327. 83. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1328. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1329. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1330. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1331. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1332. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1333. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1334. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1335. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1336. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1337. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1338. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1339. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1340. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1341. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil-based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  1342. 82. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1343. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1344. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1345. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1346. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1347. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1348. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1349. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1350. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1351. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1352. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1353. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1354. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1355. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1356. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19(1), 115–130.
  1357. 81. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1358. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1359. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1360. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1361. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1362. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1363. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1364. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1365. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1366. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1367. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1368. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1369. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1370. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1371. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd:YAG laser microgrooving on aluminum oxide using integrated RSM–ANN–GA approach. Journal of Industrial Engineering International, 15(2), 333–349.
  1372. 80. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1373. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1374. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1375. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1376. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1377. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1378. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1379. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1380. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1381. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1382. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1383. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1384. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1385. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1386. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryogenically treated cermet inserts. Journal of Superhard Materials, 41(4), 247–264.
  1387. 79. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1388. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1389. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1390. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1391. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1392. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1393. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1394. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1395. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1396. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1397. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1398. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1399. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1400. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1401. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248–270.
  1402. 78. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1403. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1404. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1405. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1406. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1407. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1408. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1409. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1410. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1411. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1412. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1413. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1414. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1415. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1416. Panda, A., Das, S. R., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: Assessment, modeling, optimization, and economic aspects. Journal of Advanced Manufacturing Systems, 18(4), 625–655.
  1417. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2019) Hygrothermal effect on vibroacoustic behaviour of higher-order sandwich panel structure with laminated composite face sheets, Engineering Structures, Vol. 197, pp. 109355, DOI: 10.1016/j.engstruct.2019.109355. (IF: 5.58, SCI)
  1418. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2019) Vibroacoustic analysis of thermo-elastic laminated composite sandwich curved panel: A higher-order FEM-BEM approach, International Journal of Mechanics and Materials in Design Vol. 15(2), pp. 271-289, DOI: 10.1007/s10999-018-9426-5, (IF: 3.561, SCI)
  1419. Mehar, K., Panda, S. K., Mahapatra, T. R., (2019), Large-deformation bending responses of nanotube-reinforced polymer composite panel structure- numerical and experimental analysis, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, Vol. 233 (5), pp. 1695-1704, DOI: 10.1177/0954410018761192, (IF: 0.809) SCI
  1420. Sahoo, S. S., Panda, S. K., Mahapatra, T. R., and Hirwani, C. K., (2019), Numerical analysis of transient responses of delaminated layered structure using different mid-plane theories and experimental validation, Iranian Journal of Science and Technology, Transactions of Mechanical Engineering, Vol. 43 (1), pp. 41-56, DOI: 10.1007/s40997-017-0111-3 (IF: 0.595) SCI
  1421. Singh, V. K., Hirwani, C. K., Panda, S. K., Mahapatra, T. R. and Mehar, K., (2019) Numerical and Experimental Nonlinear Dynamic Response Reduction of Smart Composite Curved Structure using Collocation and Non-collocation Configuration, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 233 (5), pp. 1601-1619, DOI: 10.1177/0954406218774362, (IF: 1.015) SCI
  1422. Dash, S., Mehar, K., Sharma, N., Mahapatra, T. R., Panda, S. K. (2019) Finite element solution of stress and flexural strength of functionally graded doubly curved sandwich shell panel, Earthquake and Structures, Vol. 16 (1), pp. 55-67, DOI: 10.12989/eas.2019.16.1.055, SCIE (IF: 1.309)
  1423. S Jaypuria, TR Mahapatra, O Jaypuria, (2019) Metaheuristic tuned ANFIS model for input-output modeling of friction stir welding, Materials Today: Proceedings, 18(7), 3922-3930. doi: 10.1016/j.matpr.2019.07.332. (IF: 2.59, SCOPUS)
  1424. M Das, D Mishra, TR Mahapatra, (2019) Machinability of Metal Matrix Composites: A Review, Materials Today: Proceedings, 18(7), 5373-5381. doi: 10.1016/j.matpr.2019.07.564. (IF: 2.59, SCOPUS)
  1425. S Jaypuria, S Khandai, TR Mahapatra, A Singh, (2019) Development of activated flux for deep penetration in GTAW, Materials Today: Proceedings, 18(7), 4703-4710. doi: 10.1016/j.matpr.2019.07.456. (IF: 2.59, SCOPUS)
  1426. B Dash, M Das, M Das, TR Mahapatra, D Mishra, (2019) A concise review on machinability of NiTi shape memory alloys, Materials Today: Proceedings, 18(7), 5141-5150. doi: 10.1016/j.matpr.2019.07.511. (IF: 2.59, SCOPUS)
  1427. Ranjan, S., Khan, R., Dash, S., Mahapatra, T.R., Panda, S.K. (2019) Thermo-elastic free vibration analysis of functionally graded flat panel with temperature gradient along thickness, IOP Conference Series: Materials Science and Engineering, 2019, 577(1), 012123 (IF: 0.39) (SCOPUS)
    1428. 2018
  1428. 89. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1429. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1430. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1431. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1432. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1433. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1434. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1435. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1436. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1437. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1438. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1439. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1440. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1441. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1442. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  1443. 88. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1444. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1445. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1446. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1447. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1448. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1449. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1450. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1451. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1452. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1453. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1454. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1455. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1456. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1457. Anand, A., Behera, A. K., & Das, S. R. (2018). Economic machining of hardened steels by hard turning and its process variables. International Journal of Engineering and Technology, 7, 320–325.
  1458. 87. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1459. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1460. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1461. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1462. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1463. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1464. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1465. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1466. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1467. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1468. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1469. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1470. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1471. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1472. Dhupal, D., Dixit, S. R., & Das, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Scientific Bulletin, Series D: Mechanical Engineering, 80(4), 163–178.
  1473. 86. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1474. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1475. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1476. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1477. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1478. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1479. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1480. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1481. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1482. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1483. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1484. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1485. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1486. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1487. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3–4), 113–141.
  1488. Sharma, N., Mahapatra, T. R., Panda, S. K. (2018), Numerical analysis of acoustic radiation properties of laminated composite flat panel in thermal environment: A higher-order finite-boundary element approach. IMechE Part C: Journal of Mechanical Engineering Science, Vol. 232 (18), pp. 3235-3249, DOI: 10.1177/0954406217735866 (IF: 1.015) SCI
  1489. Dash, S., Mehar, K., Sharma, N., Mahapatra, T. R., Panda, S. K. (2018) Modal analysis of FG sandwich doubly curved shell structure, Structural Engineering and Mechanics, Vol. 68 (6), pp. 721-733, DOI: 10.12989/sem.2018.68.6.721, (IF: 2.91) SCI
  1490. Mehar, K., Mahapatra, T. R., Panda, S. K., Katariya, P. V., and Tompe, U. K (2018) Finite-Element Solution to Nonlocal Elasticity and Scale Effect on Frequency Behavior of Shear Deformable Nanoplate Structure, Journal of Engineering Mechanics, ASCE, Vol. 144(9), pp. 04018094, DOI: 10.1061/(ASCE)EM.1943-7889.0001519 (IF: 1.80) SCI
  1491. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2018) Numerical analysis of acoustic radiation responses of shear deformable laminated composite shell panel in hygrothermal environment, Journal of Sound and Vibration, Vol. 431, pp. 346-366, DOI: 10.1016/j.jsv.2018.06.007, (IF: 3.20) SCI.
  1492. Sharma, N., Mahapatra, T. R., Panda, S. K., Hirwani, C. K. (2018), Acoustic radiation and frequency response of higher-order shear deformable multilayered composite doubly curved shell panel – An experimental validation, Applied Acoustics, Vol. 133, pp. 38-51, DOI: 10.1016/j.apacoust.2017.12.013, (IF: 1.921). SCIE
  1493. Mehar, K., Panda, S. K., Mahapatra, T. R., (2018), Nonlinear Frequency Responses Of Functionally Graded Carbon Nanotube-Reinforced Sandwich Curved Panel Under Uniform Temperature Field, International Journal of Applied Mechanics, Vol. 10 (3), pp. 1850028, DOI: 10.1142/S175882511850028X (IF: 1.954). SCIE
  1494. Hirwani, C. K., Panda, S. K. and Mahapatra, T. R. (2018), Nonlinear Finite Element Analysis of Transient Behavior of Delaminated Composite Plate, Journal of Vibration and Acoustics, Transactions of the ASME, Vol. 140 (2), pp. 021001, DOI: 10.1115/1.4037848, (IF: 1.692) SCIE.
  1495. Sharma, N., Mahapatra, T. R., Panda, S. K., Hirwani, C. K. (2018), Thermoacoustic Behavior of Laminated Composite Curved Panels Using Higher-Order Finite-Boundary Element Model, International Journal of Applied Mechanics, Vol. 10 (2), pp. 1850017, DOI: 10.1142/S1758825118500175 (IF: 1.954). SCIE
  1496. Hirwani, C. K., Panda, S. K., Mahapatra, T. R. (2018), Thermomechanical Deflection and Stress Responses of Delaminated Shallow Shell Structure using Higher-Order Theories, Composite Structures, Vol. 184, pp. 135-145, DOI: 10.1016/j.compstruct.2017.09.071 (IF: 6.3). SCI
  1497. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2018) Evaluation of vibroacoustic responses of laminated composite sandwich structure using higher-order finite-boundary element model, Steel and Composite Structures, Vol. 28 (5), pp. 629-639 (IF: 4.6) SCI.
  1498. Sharma, N., Mahapatra, T. R., Panda, S. K. (2018), Vibro-acoustic analysis of laminated composite plate structure using structure-dependent radiation modes: An experimental validation, Scientia Iranica, Vol. 25 (5B), pp. 2706-2721, DOI: 10.24200/sci.2018.20420 (IF: 1.025) SCIE
  1499. Mehar, K., Panda, S. K. and Mahapatra, T. R. (2018), Thermoelastic Deflection Responses of CNT Reinforced Sandwich Shell Structure using Finite Element Method, Scientia Iranica, Vol. 25 (5B), pp. 2722-2737, DOI: 10.24200/SCI.2017.4525 (IF: 1.025) SCIE
  1500. Hirwani, C. K., Panda, S. K., Mahapatra, T. R., Mandal, S. K., Mahapatra, S. S. and De, A. K. (2018), Delamination effect on flexural responses of layered curved shallow shell panel-Experimental and numerical analysis, International Journal of Computational Methods, Vol. 15 (4), pp. 1850027, DOI: 10.1142/S0219876218500275 (IF: 1.053). SCIE
  1501. Katariya, P. V., Panda, S. K. and Mahapatra, T. R. (2018) Bending and vibration analysis of skew sandwich plate, Aircraft Engineering and Aerospace Technology, Vol. 90 (6), pp.885-895, DOI: 10.1108/AEAT-05-2016-0087, (IF: 0.519) SCI
  1502. Sharma, N., Mahapatra T. R., Panda, S. K., Sahu, P., (2018) Characterization of the Acoustic Radiation Properties of Laminated and Sandwich Composite Panels in Thermal Environment, IOP Conference Series: Materials Science and Engineering, Vol. 338(1), 012031, DOI: 10.1088/1757-899X/338/1/012031. (IF: 0.39, SCOPUS)
  1503. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2018) Analysis of vibro-acoustic response of un-baffled laminated composite conical shell panel with varying thickness, IOP Conf. Series: Materials Science and Engineering 377, 012139, DOI: 10.1088/1757-899X/377/1/012139, (IF: 0.39) (SCOPUS)
  1504. Sharma, N., Mahapatra, T. R. and Panda, S. K., Mazumdar, A. (2018) Acoustic radiation characteristics of un-baffled laminated composite conical shell panels, Materials Today: Proceedings, Vol. 5 (11), pp. 24387-24396, DOI: 10.1016/j.matpr.2018.10.234, (IF: 2.59) (SCOPUS)
  1505. Dash, S, Sharma, N, Mahapatra, T. R., Panda, S. K. and Sahu, P (2018) Free vibration analysis of functionally graded sandwich flat panel, IOP Conf. Series: Materials Science and Engineering, Vol. 377 (1) 012140, doi:10.1088/1757-899X/377/1/012140, (IF: 0.39) (SCOPUS)
  1506. Sahoo, S., Mahapatra, T. R. (2018) ANN Modeling to study strength loss of Fly Ash Concrete against Long term Sulphate Attack, Materials Today: Proceedings, Vol. 5 (11), pp. 24595-24604, DOI: 10.1016/j.matpr.2018.10.257, (IF: 0.94) (SCOPUS)
  1507. Behera, A., Behera, R. K., Sahu, P., Swain, R. R., Mahapatra, T.R. (2018) Tensile and Failure Behavior of Kevlar Fiber Reinforced Epoxy Matrix Composite Exposed to Different Environmental Conditions, Materials Today: Proceedings, Vol. 5 (9), pp. 20250-20256, DOI: 10.1016/j.matpr.2018.06.396, (IF: 0.94) (SCOPUS)
    1508. 2017
  1508. 91. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1509. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1510. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1511. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1512. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1513. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1514. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1515. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1516. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1517. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1518. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1519. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1520. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1521. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1522. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3(1), 9.
  1523. 90. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1524. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1525. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1526. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1527. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1528. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1529. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1530. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1531. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1532. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1533. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1534. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1535. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1536. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1537. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1(4), 237–249.
  1538. Katariya, P. V., Panda, S. K. and Mahapatra, T. R., (2017) Nonlinear thermal buckling behaviour of laminated composite panel structure including the stretching effect and higher-order finite element, Advances in Materials Research, Vol. 6 (4), pp. 349-361, DOI: https://doi.org/10.12989/amr.2017.6.4.349, (IF: 0.933) SCIE, SCOPUS
  1539. Sharma, N., Mahapatra, T. R., Panda, S. K. (2017), Vibro-acoustic behaviour of shear deformable laminated composite flat panel using BEM and the higher order shear deformation theory, Composite Structures, Vol. 180 (15), pp. 116-129, DOI: 10.1016/j.compstruct.2017.08.012 (IF: 6.3). SCI
  1540. Mehar, K., Panda, S. K., and Mahapatra, T. R. (2017) Theoretical and experimental investigation of vibration characteristic of carbon nanotube reinforced polymer composite structure, International Journal of Mechanical Sciences, Vol. 133, pp. 319-329, DOI: 10.1016/j.ijmecsci.2017.08.057 (IF: 2.481) SCI, SCIE and SCOPUS
  1541. Sharma, N., Mahapatra, T. R. and Panda, S. K., (2017) Vibro-acoustic analysis of un-baffled curved composite panels with experimental validation, Structural Engineering and Mechanics, Vol. 64 (1), pp. 93-107, DOI: 10.12989/sem.2017.64.1.093 (IF: 1.114) SCI
  1542. Mahapatra, T. R., Kar, V. R., and Panda, S. K., (2017), Nonlinear thermoelastic deflection of temperature-dependent FGM curved shallow shell under nonlinear thermal loading, Journal of Thermal Stresses, Vol. 40 (9), pp. 1184-1199, DOI:10.1080/01495739.2017.1302788, (IF: 1.364). SCI
  1543. Hirwani, C. K., Panda, S. K., Mahapatra, T. R. and Mahapatra, S. S. (2017) Numerical Study and Experimental Validation of Dynamic Characteristics of Delaminated Composite Flat and Curved Shallow Shell Structure, Journal of Aerospace Engineering, Vol. 30 (5), pp. 04017045 (1-16) DOI: 10.1061/(ASCE)AS.1943-5525.0000756, (IF: 0.76), SCI.
  1544. Mehar, K., Panda, S. K. and Mahapatra, T. R. (2017) Thermoelastic Nonlinear Frequency Analysis of CNT Reinforced Functionally Graded Sandwich Structure, European Journal of Mechanics / A Solids, Vol. 65, pp. 384-396, DOI: 10.1016/j.euromechsol.2017.05.005, (IF: 2.453) SCI
  1545. Mehar, K., Panda, S. K., Bui, T. Q. and Mahapatra, T. R. (2017) Nonlinear thermoelastic frequency analysis of functionally graded CNT-reinforced single/doubly curved shallow shell panels by FEM, Journal of Thermal Stresses, Vol. 40 (7), pp. 899-916, DOI: 10.1080/01495739.2017.1318689 (IF: 1.364), SCI.
  1546. Hirwani, C. K., Mahapatra, T. R.,Panda, S. K., Sahoo, S. S., Singh, V. K. and Patle, B. K. (2017) Nonlinear Free Vibration Analysis of Laminated Carbon/Epoxy Curved Panels: Theoretical and Experimental Investigation, Defence Science Journal, Vol. 67, No. 2, pp. 207-218, DOI:10.14429/dsj.67.10072, (IF: 0.428), SCIE, SCOPUS.
  1547. Sahoo, S. S., Mahapatra, T. R., Panda, S. K., and Singh, V. K. (2017), Numerical investigation on the nonlinear flexural behaviour of wrapped glass/epoxy laminated composite panel and experimental validation, Archive of Applied Mechanics, Vol. 87 (2), pp. 315-333, DOI: 10.1007/s00419-016-1195-8, (IF: 1.103) SCI
  1548. Kar, V. R., Mahapatra, T. R. and Panda, S. K., (2017), Effect of different temperature load on thermal postbuckling behaviour of functionally graded shallow curved shell panels, Composite Structures, Vol. 160 (15), pp. 1236-1247, DOI: 10.1016/j.compstruct.2016.10.125, (IF: 6.3) SCI
  1549. Dutta, G., Panda, S. K., Mahapatra, T. R., and Singh, V. K. (2017), Electro-Magneto-Elastic Response of Laminated Composite Plate: A Finite Element Approach, International Journal of Applied and Computational Mathematics, Vol. 3 (3), pp. 2573–2592, DOI: 10.1007/s40819-016-0256-6, (IF: 0.653) SCIE
  1550. Sharma, N., Mahapatra, T. R. and Panda, S. K. (2017), Numerical Study of Vibro-Acoustic Responses of Un-Baffled Multi-Layered Composite Structure under Various End Conditions and Experimental Validation, Latin American Journal of Solids and Structures, Vol. 14 (8), pp. 1547-1568, DOI: 10.1590/1679-78253830, (IF: 1.481, SCIE, SCOPUS).
  1551. Hirwani, C. K., Panda, S. K., Mahapatra, T. R. and Mahapatra, S. S. (2017), Nonlinear transient finite-element analysis of delaminated composite shallow shell panels, AIAA Journal, Vol. 55 (5), pp. 1734-1748, DOI: 10.2514/1.J055624, (IF: 1.207) SCI.
  1552. Katariya, P. V., Panda, S. K. and Mahapatra, T. R. (2017) Prediction of nonlinear eigenfrequency of laminated curved sandwich structure using higher-order equivalent single-layer theory, Journal of Sandwich Structures and Materials, 21(8), 2846-2869. DOI: 10.1177/1099636215577363 (IF: 2.852). SCI
  1553. Kataria, P. V., Panda, S. K. and Mahapatra, T. R. (2017) Effect of Skew Angle on Free Vibration Responses of Sandwich Composite Plate, International Journal of Research in Mechanical Engineering and Technology, Vol. 7 (1), pp. 21-24
  1554. Mahapatra, T. R., Mehar, K., Panda, S. K., Dewangan, S. and Dash, S., (2017) Flexural Strength of Functionally Graded Nanotube Reinforced Sandwich Spherical Panel, IOP Conference Series: Materials Science and Engineering, Vol. 178, (012031) DOI: 10.1088/1757-899X/178/1/012031, (IF: 0.39) (SCOPUS)
  1555. Panda, S. K., Mahapatra, T. R. and Kar, V. R. (2017) Nonlinear Finite Element Solution of Post-buckling Responses of FGM Panel Structure under Elevated Thermal Load and TD and TID Properties, MATEC Web of Conferences, Vol. 109, 05005, DOI: 10.1051/matecconf/201710905005, (SCOPUS)
  1556. Mahapatra, T. R., Dewangan, S., Dash, S. and Panda S. K. (2017), Flexural Behavior of Functionally Graded Sandwich Plates, International Journal of Research in Mechanical Engineering and Technology, Vol. 7 (1), pp. 25-29.
    1557. 2016
  1557. 92. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1558. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1559. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1560. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1561. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1562. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1563. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1564. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1565. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1566. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1567. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1568. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1569. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1570. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1571. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5–6).
  1572. Mahapatra, T. R., Panda, S. K. and Dash, S., (2016) Effect of hygrothermal environment on the nonlinear free vibration responses of laminated composite plates: A nonlinear finite element micromechanical approach, IOP Conf. Series: Materials Science and Engineering 149, 012151 DOI: 10.1088/1757-899X/149/1/012151, (IF: 0.39) (SCOPUS)
  1573. Dewangan, S., Mahapatra, T. R. and Sharma, N., (2016) Flexural analysis of laminated composite flat panel, International Conference on “Recent Trends in Mechanical, Material Science, Manufacturing, Automobile, Aerospace Engineering and Applied Physics” (AMAEAP-2016), JNU, New Delhi, 30th April, Journal of Material Science and Mechanical Engineering, Vol. 3 (3) pp. 219-223. (IF:0.8)
  1574. Mahapatra, T. R., Kar, V. R., and Panda, S. K., (2015), Nonlinear free vibration analysis of laminated composite doubly curved shell panel in hygrothermal environment, Journal of Sandwich Structures and Materials, Vol. 17 (5), pp. 511-545 DOI: 10.1177/1099636215577363 (IF: 3.9). SCI
  1575. Mahapatra, T. R.and Panda, S. K., (2015), Thermoelastic vibration analysis of laminated doubly curved shallow panels using non-linear FEM, Journal of Thermal Stresses, Vol. 38 (1), pp. 39-68, DOI: 10.1080/01495739.2014.976125, (IF: 2.8). SCI
  1576. Kar, V. R., Mahapatra, T. R., and Panda, S. K (2015), Nonlinear flexural analysis of laminated composite flat panel under hygro-thermo-mechanical loading, Steel and Composite Structures An International Journal, Vol. 19 (4), pp. 1011-1033, DOI: http://dx.doi.org/10.12989/scs.2015.19.4.1011 (IF: 4.6) SCI
  1577. Mahapatra, T. R. and Panda, S. K., (2015), Effects of hygrothermal conditions on free vibration behaviour of laminated composite structures, NCPCM 2014 December 5th-6th, National Institute of Technology Rourkeal, Published in: IOP Conference Series: Materials Science and Engineering, Vol. 75 pp. 012016 (1-10) DOI: 10.1088/1757-899X/75/1/012017, (IF: 0.39) (SCOPUS)
  1578. Panda, S. K., and Mahapatra, T. R. (2014), Nonlinear Finite Element Analysis of Laminated Composite Spherical Shell Vibration under Uniform Thermal Loading, Meccanica, Vol. 49 (1), pp. 191-213, DOI: 10.1007/s11012-013-9785-9 (IF: 2.7) SCI
  1579. Singh, V. K., Mahapatra, T. R. and Panda, S. K (2016), Nonlinear transient analysis of smart laminated composite plate integrated with PVDF sensor and AFC actuator, Composite Structures, Vol. 157, pp. 121–130, DOI: 10.1016/j.compstruct.2016.08. 020 (IF: 6.3) SCI
  1580. Mahapatra, T. R., Panda S. K., and Kar, C. (2014), Vibration behaviour of laminated composite flat panel under hygrothermal environment, Innovative Trends in Mechanical, Material, Manufacturing, Automotive, Automobile and Aeronautical Engineering” (ITMMMAAAE-2014) published in International Review of Applied Engineering Research, Vol. 4 (5), pp. 455-464
  1581. Mahapatra, T. R., Panda, S. K. and Kar, V. R., (2016), Nonlinear hygro-thermo-elastic vibration analysis of doubly curved composite shell panel using finite element micromechanical model, Mechanics of Advanced Materials and Structures, Vol. 23 (11), pp. 1343-1359, DOI: 10.1080/15376494.2015.1085606, (IF: 2.8). SCI
  1582. Singh, V. K., Mahapatra, T. R. and Panda, S. K (2016), Nonlinear flexural analysis of single/doubly curved smart composite shell panels integrated with PFRC actuator, European Journal of Mechanics - A/Solids, Vol. 60, pp. 300–314, DOI: http://dx.doi.org/ 10.1016/j.euromechsol.2016.08.006 (IF: 4.1) SCI
  1583. Mahapatra, T. R., Kar, V. R., and Panda, S. K., (2016), Large Amplitude Free Vibration Analysis of Laminated Composite Spherical Panel under Hygrothermal Environment, International Journal of Structural Stability and Dynamics, Vol. 16 (3), pp. 1450105 (22 pages) DOI: 10.1142/S0219455414501053, (IF: 1.617). SCIE
  1584. Mahapatra, T. R., and Panda, S. K. (2016), Nonlinear free vibration analysis of laminated composite spherical shell panel under elevated hygrothermal environment: A micromechanical approach, Aerospace Science and Technology, Vol. 49, pp. 276–288 DOI: http://dx.doi.org/10.1016/j.ast.2015.12.018 (IF: 5.6). SCI
  1585. Mahapatra, T. R., Kar, V. R., and Panda, S. K. (2016), Large amplitude bending behaviour of laminated composite curved panels, International Journal for Computer-Aided Engineering and Software, Engineering Computations, Vol. 33 (1), pp. 116-138, DOI: http://dx.doi.org/10.1108/EC-05-2014-0119 (IF: 1.67) SCIE
  1586. Mahapatra, T. R., Kar, V. R., and Panda, S. K. (2016), Nonlinear flexural analysis of laminated composite spherical shells under hygro-thermo-mechanical loading-a micromechanical approach, International Journal of Computational Method, Vol. 13 (3), pp. 1650015 DOI: 10.1142/S0219876216500158 (IF: 1.7) SCI.
  1587. Kar, V. R., Mahapatra, T. R., and Panda, S. K. (2016) Thermal buckling behaviour of shear deformable functionally graded single/doubly curved shell panel with TD and TID properties, Advances in Materials Research, An international journal, Vol. 5, No. 4, pp. 205-221, (IF: 3.8), SCI.
  1588. Mahapatra, T. R., Panda, S. K. and Kar, V. R., (2016), Geometrically nonlinear flexural analysis of hygro-thermo-elastic laminated composite doubly curved shell panel, International Journal of Mechanics and Materials in Design, Vol. 12 (2), pp. 153–171, DOI: 10.1007/s10999-015-9299-9, (IF: 3.7). SCI
  1589. Sahoo, S. S., Panda, S. K. and Mahapatra, T. R. (2016), Static, free vibration and transient response of laminated composite curved shallow panel - An experimental approach, European Journal of Mechanics - A/Solids, Vol. 59, pp. 95-113, DOI: http://dx.doi.org/ 10.1016/j.euromechsol.2016.03.0140997-7538 (IF: 4.1) SCI
  1590. Mahapatra, T. R. and Panda, S. K., (2016), Hygrothermal effects on the flexural strength of laminated composite cylindrical panels, IOP Conference Series: Materials Science and Engineering, Vol. 115 pp. 012040 (1-10), DOI: doi:10.1088/1757-899X/115/1/012040 (IF: 0.32) (SCOPUS)
  1591. Mahapatra, T. R., Panda S. K., and Kar, C. (2014), Nonlinear bending analysis of shear deformable laminated composite flat panel, International Conference on Advances in Engineering and Technology, Pune, India, 1st-3rd September published in International Journal of Engineering Sciences, Vol. 7 (2), pp. 71-76.
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  1729. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  1730. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  1731. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  1732. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  1733. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
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  1735. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
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  1737. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
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  1754. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  1755. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  1756. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  1757. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  1758. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  1759. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1760. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1761. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1762. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1763. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1764. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1765. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1766. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1767. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1768. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1769. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  1770. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1771. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1772. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1773. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1774. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1775. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1776. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1777. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1778. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1779. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1780. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  1781. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1782. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1783. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1784. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1785. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1786. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1787. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1788. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1789. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1790. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1791. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  1792. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1793. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1794. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1795. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1796. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1797. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1798. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1799. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1800. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1801. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1802. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  1803. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1804. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1805. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1806. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1807. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1808. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1809. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1810. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1811. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1812. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1813. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  1814. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1815. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1816. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1817. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1818. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1819. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1820. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1821. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1822. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1823. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1824. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  1825. Arun Kumar Rout & Subhrajit Ray , “A comparative study of the mechanical properties of glass-polyester composites filled with industrial wastes” ,Composites: Mechanics, Computations, Applications,An International Journal , 5(2) , 1-14, 2014
  1826. N. K. Kund (Sole Author) (2014), Influence of melt pouring temperature and plate inclination on solidification produced by using oblique plate, Transactions of Nonferrous Metals Society of China (Elsevier), Vol. 24, pp. 3465-3476 (Impact Factor: 4.7) (SCI).
  1827. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1828. Pal, K, and Pal, S K., “Effect of pulse parameters on weld quality in pulsed gas metal arc welding: a review”, Journal of Materials Engineering and Performance, Springer Verlag, 2011, Vol. 20(6), pp. 918-931, SCI/SCOPUS.
  1829. Das SR, Kumar A & Dhupal D ;(2015)“Surface roughness analysis of hardened steel using TiN coated ceramic inserts”International Journal of Machining and Machinability of Materials 17 (1), 22-38.
  1830. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1831. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1832. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1833. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1834. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1835. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1836. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1837. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1838. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1839. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1840. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  1841. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1842. (a) Indexed
    Mishra, D., Panda, S., and Pattnaik, S., (2011), Workspace volume optimization of 3RManipulator Using a Novel Differential Evolution, ACSE, Dubai, pp.540-543.
  1843. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1844. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1845. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1846. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  1847. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1848. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1849. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1850. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1851. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1852. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1853. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1854. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1855. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1856. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1857. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  1858. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1859. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1860. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1861. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1862. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1863. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1864. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1865. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1866. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1867. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1868. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  1869. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1870. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1871. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1872. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1873. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1874. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1875. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1876. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1877. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1878. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1879. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  1880. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1881. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1882. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1883. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1884. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1885. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1886. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1887. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1888. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1889. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1890. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  1891. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1892. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1893. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1894. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1895. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1896. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1897. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1898. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1899. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1900. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1901. Biswal, S., Das, S. R., Saha, N., & Mishra, P. C. (2023). Environmental sustainability assessment of gasoline and methanol blended smart fuel for reduced emission formation. Environment, Development and Sustainability, 1-32. https://doi.org/10.1007/s10668-023-03752-6
  1902. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1903. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1904. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1905. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1906. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1907. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1908. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1909. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1910. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1911. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1912. Pittala, R. K., Sharma, P., Anne, G., Patil, S., Varghese, V., Das, S. R., ... & Fernandes, F. (2023). Development and Mechanical Characterization of Ni-Cr Alloy Foam Using Ultrasonic-Assisted Electroplating Coating Technique. Coatings, 13(6), 1002.
  1913. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1914. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1915. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1916. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1917. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1918. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1919. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1920. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1921. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1922. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1923. Mishra, P. C., Roychoudhury, A., Banerjee, A., Saha, N., Das, S. R., & Das, A. (2023). Coated Piston Ring Pack and Cylinder Liner Elastodynamics in Correlation to Piston Subsystem Elastohydrodynamic: Through FEA Modelling. Lubricants, 11(5), 192.
  1924. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1925. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1926. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1927. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1928. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1929. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1930. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1931. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1932. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1933. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1934. Sharma, P., Soni, H., Sethy, S., Das, S. R., Tharwan, M. Y., Al Sofyani, S., ... & Elsheikh, A. (2023). Surface characterization of SAE 304 after WED cutting: An experimental investigation and optimization. Journal of Materials Research and Technology, 23, 5723-5732.
  1935. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1936. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1937. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1938. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1939. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1940. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1941. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1942. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1943. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1944. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1945. Mahapatra, S., Das, A., Jena, P. C., & Das, S. R. (2023). Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 237(4), 843-864.
  1946. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1947. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1948. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1949. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1950. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1951. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1952. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1953. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1954. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1955. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1956. Padhan, S., Wagri, N. K., Dash, L., Das, A., Das, S. R., Rafighi, M., & Sharma, P. (2023). Investigation on surface integrity in hard turning of AISI 4140 steel with SPPP-AlTiSiN coated carbide insert under nano-MQL. Lubricants, 11(2), 49.
  1957. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1958. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1959. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1960. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1961. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1962. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
  1963. Panda, A., Das, S. R., & Dhupal, D. (2017). Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation. Process Integration and Optimization for Sustainability, 1, 237-249.
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  1979. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1980. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1981. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1982. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1983. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1984. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1985. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1986. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1987. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1988. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1989. Wagri, N. K., Jain, N. K., Petare, A., Das, S. R., Tharwan, M. Y., Alansari, A., ... & Elsheikh, A. (2023). Investigation on the performance of coated carbide tool during dry turning of AISI 4340 alloy steel. Materials, 16(2), 668.
  1990. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1991. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1992. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1993. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1994. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1995. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1996. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1997. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1998. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  1999. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  2000. Kumar, N., Kumar, A., & Das, S. R. (2023). ELECTROCHEMICAL ARC DRILLING OF NICKEL–TITANIUM SHAPE MEMORY ALLOY USING MOLYBDENUM ELECTRODE: INVESTIGATION, MODELING AND OPTIMIZATION. Surface Review & Letters, 30(8).
  2001. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2002. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2003. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2004. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2005. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2006. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2007. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2008. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2009. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2010. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2011. Ibrahim, A. M. M., Omer, M. A., Das, S. R., Li, W., Alsoufi, M. S., & Elsheikh, A. (2022). Evaluating the effect of minimum quantity lubrication during hard turning of AISI D3 steel using vegetable oil enriched with nano-additives. Alexandria Engineering Journal, 61(12), 10925-10938.
  2012. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2013. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2014. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2015. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2016. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2017. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2018. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2019. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2020. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2021. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2022. Babu, M. N., Anandan, V., Parthasarathi, N. L., Yildirim, C. V., Babu, M. D., & Das, S. R. (2022). Performance analysis in turning of D3 tool steel using silver nanoplatelets as additives under MQL. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(12), 591.
  2023. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2024. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2025. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2026. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2027. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2028. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2029. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2030. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2031. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2032. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2033. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
  2034. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
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  2121. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2122. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2123. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2124. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2125. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2126. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2127. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2128. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  2129. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  2130. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  2131. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  2132. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  2133. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  2134. Salwan, G., Mishra, D. and Pani, S. (2009), A Neural Network Approach for Selection ofPowder Metallurgy Process Parameter of Rapidly Solidified White Cast Iron, Nature &Biologically Inspired Computing, NaBIC-2009, IEEE XPlore, pp. 1276 – 1281.
  2135. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2136. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2137. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2138. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2139. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2140. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2141. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2142. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2143. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2144. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  2145. Pradhan S & Dhupal D; (2022) "Experimental and simulation approach of surface generation on K-80 alumina ceramic by recently developed sustainable FB-HAJM using novel nozzle design”. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering; 236(6):2502-2514. doi:10.1177/09544089221093988
  2146. Pradhan S, Sahu S, Das S R & Dhupal D; (2022) “Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives” International Journal of Abrasive Technology. Vol. 10, No. 4, pp. 298-329. https://doi.org/10.1504/IJAT.2021.120291.
  2147. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2148. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2149. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2150. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2151. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2152. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2153. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2154. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2155. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2156. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  2157. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2158. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2159. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2160. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2161. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2162. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2163. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2164. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2165. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2166. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  2167. Rout B, Dash R, Dhupal D & Das SR; (2022) “Optimized posture prediction for task specific during stacking process using human upper body movements”. Int J Interact Des Manuf 16, 291–303. https://doi.org/10.1007/s12008-022-00841-0
  2168. Panda SK, Rout S, Panigrahi D & Dhupal D; (2021) Investigation on Surface Morphology and Dimensional Characteristics of Micro-channels Fabricated on Titanium-V Alloy by DPSS Nd:YAG Laser. Lasers Manuf. Mater. Process. 8, 443–465. https://doi.org/10.1007/s40516-021-00156-0
  2169. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2170. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2171. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2172. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2173. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2174. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2175. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2176. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2177. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2178. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  2179. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2180. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2181. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2182. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2183. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2184. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2185. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2186. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2187. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2188. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  2189. Naik S, Das S R, Dhupal D & Khatua A K; (2022) “Electrical Discharge Machining of Engineered Al-22% SiC Metal Matrix Composite: Surface Roughness Analysis, Optimization, Economic Analysis, and Sustainability Assessment”. Process Integr Optim Sustain 6, 223–251. https://doi.org/10.1007/s41660-021-00207-1
  2190. Naik S, Das SR, Dhupal D & Khatua AK; (2021) Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22%SiC metal matrix composite. Revista de Metalurgia. 57 (4) e210. https://doi.org/10.3989/revmetalm.210
  2191. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2192. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2193. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2194. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2195. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2196. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2197. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2198. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2199. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2200. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  2201. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2202. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2203. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2204. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2205. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2206. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2207. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2208. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2209. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2210. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  2211. Pradhan S, Sahu S, Das SR & Dhupal D ;(2021)“Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives ”International Journal of Abrasive Technology. (Accepted).
  2212. Parida SP, Jena PC, Das SR, Dhupal D & Dash RR;(2021)“Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation ”Advances in Materials and Processing Technologies.1-16,https://doi.org/10.1080/2374068X.2021.1949541.
  2213. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2214. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2215. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2216. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2217. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2218. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2219. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2220. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2221. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2222. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2223. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  2224. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2225. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2226. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2227. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2228. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2229. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2230. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2231. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2232. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2233. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2234. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2235. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2236. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2237. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2238. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  2239. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  2240. Pradhan S, Das SR, Jena PC & Dhupal D ;(2021)“Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication” Advances in Materials and Processing Technologies.1-16,https://doi.org/10.1080/2374068X.2021.1948706.
  2241. Banerjee B, Pradhan S, Das S & Chakraborty A; (2021)“Horn design and analysis in ultrasonic machining process using ANSYS ”Advances in Materials and Processing Technologies. 1-14,https://doi.org/10.1080/2374068X.2021.1945266.
  2242. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2243. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2244. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2245. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2246. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2247. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2248. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2249. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2250. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2251. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2252. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2253. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2254. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2255. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2256. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2257. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  2258. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  2259. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2260. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  2261. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  2262. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2263. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
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  2265. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2266. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2267. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2268. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2269. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2270. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2271. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2272. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  2273. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  2274. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  2275. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  2276. Dhupal D , Doloi B & Bhattacharyya B; (2009)“Modeling and optimization on Nd: YAG laser turned micro-grooving of cylindrical ceramic material” Optics and Lasers in Engineering 47 (9), 917-925.
  2277. Arun Kumar Rout & Alok Satapathy , “Analysis of Dry Sliding Wear Behaviour of Rice Husk Filled Epoxy Composites Using Design of Experiment and ANN” , Procedia Engineering , 38 ,1218-1232 ,2012.
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  2279. Padhan, Smita; Dash, Lalatendu; Behera, Santosh Kumar; Das, Sudhansu Ranjan (2020). Modeling and Optimization of Power Consumption for Economic Analysis, Energy-Saving Carbon Footprint Analysis, and Sustainability Assessment in Finish Hard Turning Under Graphene Nanoparticle–Assisted Minimum Quantity Lubrication. Process Integration and Optimization for Sustainability, (), –. doi:10.1007/s41660-020-00132-9
  2280. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
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  2282. Pradhan S, Dash PB, Kumari K & Dhupal D ; (2021)“Study of micro machining characteristics by Nd-YAG Laser on NiTinol shape memory alloy” Advances in Materials and Processing Technologies.1-15,https://doi.org/10.1080/2374068X.2021.1946757.
  2283. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2284. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2285. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2286. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2287. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2288. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2289. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2290. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2291. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  2292. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2293. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2294. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2295. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2296. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2297. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2298. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2299. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  2300. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2301. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2302. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2303. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2304. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2305. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2306. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2307. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2308. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2309. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2310. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2311. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2312. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2313. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  2314. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2315. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2316. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2317. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2318. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2319. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2320. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2321. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2322. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2323. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2324. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2325. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2326. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  2327. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  2328. Pradhan S, Tripathy SS & Dhupal D ; (2021)“Machining of aluminium nitride ceramic using developed hot abrasive jet machining: an experimental and simulation approach ”Advances in Materials and Processing Technologies.1-15,https://doi.org/10.1080/2374068X.2021.1945275.
  2329. Pankaj Kumar Swain, Arun Kumar Rout, Jitesh Kumar Singh, Dibakar Sahoo, Srimant Kumar Mishra, Development and analysis of Fe-doped ZnO nanoparticle-infused sisal fiber reinforced hybrid polymer composites for high-performance sound absorption and thermal insulation applications, Industrial Crops and Products, 222, 119763, 2024.
  2330. Jitesh Kumar Singh, Arun Kumar Rout , Experimental investigation on tribo-performance of rice husk nanoparticles blend epoxy composites reinforced by Borassus flabellifer L. fibre using neural network approach, Materials Today Communications, 38, 107971, 2024.
  2331. Rout S, Panigrahi D, Patel SK & Dhupal D ;(2021) “Microchanneling on bio-inert dental ceramic using dry pulsed laser ablation and liquid supported pulsed laser ablation approach” Optics and Lasers in Engineering 144, 106654 https://doi.org/10.1016/j.optlaseng.2021.106654.
  2332. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2333. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2334. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2335. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2336. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2337. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2338. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2339. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2340. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2341. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2342. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2343. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2344. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  2345. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2346. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2347. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2348. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  2349. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2350. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2351. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2352. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2353. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2354. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2355. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2356. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2357. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2358. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2359. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2360. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2361. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2362. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2363. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  2364. Pattnaik, S.K., Mishra, D., Panda, S. (2021), A comparative study of meta-heuristics for local path planning of a mobile robot, Engineering Optimization.
  2365. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2366. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  2367. Dixit S, Panigrahi D, Rout S, Panda S & Dhupal D ; (2021)“A Tribological Parametric Analysis of Laser Textured Microgrooves on Si3N4” Lasers in Engineering (Old City Publishing).
  2368. Jayasmita Das, Arun Kumar Rout , Soumya Ranjan Parimanik, Itishree Rout, Trupti Ranjan Mahapatra, Debadutta Mishra, Dynamic Mechanical, and Static analysis of kevlar fiber reinforced epoxy composites incorporated with egg shell particle, 32(1), 2024.
  2369. Naik S, Das SR & Dhupal D ;(2021)“Experimental Investigation, Predictive Modeling, Parametric Optimization and Cost Analysis in Electrical Discharge Machining of Al-SiC Metal Matrix Composite”Silicon.13, 1017-1040.
  2370. Lipsamayee Mishra, Trupti Ranjan Mahapatra, Debadutta Mishra, Soumya Ranjan Parimanik, Arun Kumar Rout , Parametric optimization of hole quality in Nd: YAG laser drilled carbon black/epoxy composite by grey based whale optimization technique, Materials Today: Proceedings, 2024.
  2371. Panda, S., Mishra, D., Biswal, B.B. (2020), An approach for design optimization of 3R manipulator using Adaptive Cuckoo Search algorithm, Mechanics Based Design of Structures and Machines, 48(6), pp. 773–798.
  2372. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2373. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2374. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2375. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2376. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2377. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2378. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2379. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2380. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2381. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2382. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2383. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2384. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2385. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2386. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2387. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  2388. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  2389. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2390. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2391. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2392. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2393. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2394. Pattanaik, A.K., Pal, K., Mishra, D. (2020), Tribiological investigation and optimization of friction stir spot welding of dissimilar metals by LSSM-ANN method, Mechanics Based Design of Structures and Machines.
  2395. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2396. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2397. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2398. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2399. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2400. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2401. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2402. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2403. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2404. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2405. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  2406. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  2407. Pradhan S, Das SR, Jena PC & Dhupal D ;(2021)“Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach” Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062211010199.
  2408. Binita Dash, Trupti Ranjan Mahapatra, Debadutta Mishra, Arun Kumar Rout , Acoustic radiation efficiencies of laminated composite structure under mechanical excitation and hygrothermal loading: Numerical analysis, Materials Today: Proceedings, 91, 25-32, 2023.
  2409. Panigrahi D, Rout S, Patel SK & Dhupal D (2021)Stray current and its consequences on microstructure of Hastelloy C-276 during parametric investigation on geometrical features: fabricated by electrochemical micromachining. The International Journal of Advanced Manufacturing Technology.112 (1), 133-156.
  2410. Jitesh Kumar Singh, Arun Kumar Rout , Thermal stability and dynamic mechanical analysis of nano-biofillers blended hybrid composites reinforced by cellulosic Borassus flabellifer L. fiber, International Journal of Polymer Analysis and Characterization, 28(6), 552-563, 2023.
  2411. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2412. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2413. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2414. Panda, S., Mishra, D., and Biswal, B.B., (2018), Optimum design of 3R manipulator usinghybrid PSOGSA algorithm, International Journal of Mechanism and Robotic Systems,Inderscience.
  2415. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2416. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2417. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2418. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2419. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2420. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2421. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2422. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2423. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  2424. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2425. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2426. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2427. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  2428. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2429. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2430. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2431. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2432. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2433. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2434. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2435. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  2436. Panda, S, and Mishra, D., (2018), Process Parameter Optimization of Hydrostatic ExtrusionUsing Metaheuristic, Journal of Advanced Manufacturing Systems, World Scientific 17(4), pp.1–18. DOI: 10.1142/S0219686718500270.
  2437. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2438. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2439. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2440. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2441. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2442. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2443. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2444. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2445. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  2446. Jitesh Kumar Singh, Arun Kumar Rout , Study on the physical, mechanical, and thermal behaviour of RHN blend epoxy hybrid composites reinforced by Borassus flabellifer L. fibers, Cellulose, 30(8), 5033-5049, 2023
  2447. Pradhan S, Das SR, Nanda BK, Jena PC & Dhupal D (2021)Machining of Hardstone Quartz with Modified Ajm Process Using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis. Surface Review and Letters (SRL) 28 (02), 1-21.
  2448. Soumya Ranjan Parimanik, Trupti Ranjan Mahapatra, Debadutta Mishra, Arun Kumar Rout , Optimisation of performance characteristics in laser welding of Nitinol wires using Taguchi and grey relation analysis, Advances in Materials and Processing Technologies, 9(1), 186-195, 2023.
  2449. Pradhan S, Das SR, Nanda BK, Jena PC & Dhupal D (2020)Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering42, 559. https://doi.org/10.1007/s40430-020-02644-4.
  2450. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2451. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2452. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2453. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2454. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2455. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2456. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2457. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2458. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  2459. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2460. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2461. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2462. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2463. Pattanaik, A.K., Panda, S.N., Mishra, B.P., Pal, K., and Mishra, D. (2017), A ComparativeInvestigation to Process Parameter Optimization for Spot Welding Using Taguchi Based GreyRelational Analysis and Metaheuristics, Technology Spectrum Review, 2(1), pp. 1-5.
  2464. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2465. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2466. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2467. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  2468. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2469. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2470. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2471. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2472. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2473. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2474. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2475. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2476. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2477. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2478. Panda, S., Biswal, B.B., Jena, S.D., and Mishra, D., (2016), An approach to weightoptimization of a spur gear, Proceedings of the Institution of Mechanical Engineers, Part J:Journal of Engineering Tribology, 231(2), pp. 189-202.
  2479. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2480. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2481. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  2482. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2483. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2484. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2485. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  2486. Trilokinath Mishra, Paulami Mandal, Arun Kumar Rout , Dibakar Sahoo, A state-of-the-art review on potential applications of natural fiber-reinforced polymer composite filled with inorganic nanoparticle, Composites Part C, 9, 100298, 2022.
  2487. Pradhan S, Das SR & Dhupal D (2020) Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon,1-25.
  2488. Pal K., Bhattacharya S., and Pal S. K., “Multisensor-based monitoring of weld deposition and plate distortion for various torch angles in pulsed MIG welding”, International Journal of Advanced Manufacturing Technology, Springer Verlag, 2010,Vol.50 (5-8), pp.543-556, SCI/SCOPUS.
  2489. Arun Kumar Rout, Alok Satapathy, Sisir Mantry, Ashok K Sahoo and Tanmay Mohanty , “Erosion Wear Performance Analysis of Polyester- GF-Granite Hybrid Composites using the Taguchi Method” , Procedia Engineering ,38 , 1863-1882 ,2012
  2490. N. K. Kund and P. Dutta (One Co-author) (2012), Scaling analysis of solidification of liquid aluminum alloy flowing on cooling slope, Transactions of the Indian Institute of Metals (Springer), Vol. 65, pp. 587-594 (Impact Factor: 1.5) (SCI).
  2491. Dash, Lalatendu; Padhan, Smita; Das, Sudhansu Ranjan (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500–. doi:10.1007/s40430-020-02594-x
  2492. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2493. Dhupal D , Doloi B & Bhattacharyya B;(2007)“Parametric analysis and optimization of Nd: YAG laser micro-grooving of aluminum titanate (Al2TiO5) ceramics” The International Journal of Advanced Manufacturing Technology 36 (9), 883-893.
  2494. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2495. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2496. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2497. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2498. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2499. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2500. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2501. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2502. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2503. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2504. Panda, S., and Mishra, D., B.B.Biswal, Choudhury, B.B. (2009), An Appropriate Formulationfor Workspace Cross Section Area of 3R Robot Manipulator, Industrial and InformationSystems (ICIIS), IEEE XPlore, pp. 511 - 515.
  2505. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2506. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2507. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2508. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  2509. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2510. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  2511. Panda, S., Panda, S.N., Nanda, P., and Mishra, D., (2015), Comparative Study on OptimumDesign of Rolling Element Bearing, Tribology International, Elsevier, 92, pp. 595-604.https://doi.org/10.1016/j.triboint.2015.07.034.
  2512. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2513. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2514. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2515. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2516. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2517. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2518. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2519. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2520. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2521. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2522. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2523. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2524. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2525. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2526. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  2527. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  2528. Jitesh Kumar Singh, Arun Kumar Rout , Characterization of raw and alkali-treated cellulosic fibers extracted from borassus flabellifer L., Biomass Conversion and Biorefinery, 14, 11633–11646, 2022.
  2529. Pattanayak S, Panda S & Dhupal D (2020)Laser micro drilling of 316L stainless steel orthopedic implant: A study. Journal of Manufacturing Processes 52, 220-234.
  2530. Naik S, Das SR & Dhupal D (2020)Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review 7, 1-20.
  2531. Jitesh kumar Singh, Arun Kumar Rout, Kanchan Kumari, A review on Borassus flabellifer lignocellulose fiber reinforced polymer composites, Carbohydrate Polymers, 262, 117929, 2021.
  2532. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2533. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2534. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2535. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2536. Mishra, D. Panda, S., and Biswal, B.B., (2015), Optimization of Multiple ResponseCharacteristics of EDM Process Using Taguchi-Based Grey Relational Analysis and ModifiedPSO, Journal of Advanced Manufacturing Systems, World Scientific, 14(3), pp. 123-148.https://doi.org/10.1142/S0219686715500092.
  2537. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2538. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2539. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2540. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2541. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2542. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2543. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2544. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2545. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2546. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2547. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  2548. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2549. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  2550. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2551. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2552. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2553. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2554. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2555. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2556. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2557. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2558. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2559. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2560. Panda, S., Mishra, D., Biswal, B. B., and Tripathy, M., (2014), Revolute ManipulatorWorkspace Optimization using a Modified Bacteria Foraging Algorithm: A ComparativeStudy, Engineering Optimization, Taylor & Francis, 46(2), pp. 181-199.DOI:10.1080/0305215X.2012.753439.
  2561. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2562. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2563. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2564. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  2565. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2566. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2567. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  2568. Panda A, Das SR & Dhupal D (2020)Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures 34 (5), 681-698.
  2569. Jnanaranjan Kar, Arun Kumar Rout, Alekha Kumar Sutar, Tanmay Mohanty, Study on static and dynamic mechanical properties of hybrid palm stalk fiber reinforced epoxy composites”, BioResources, 15(2), 4249-4270, 2020.
  2570. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo, “ A comparative analysis of the abrasion wear characteristics of industrial wastes filled glass/polyester composites based on design of experiment and artificial neural network”, Polymer Composites, DOI: 10.1002/pc.25836, 2020.
  2571. Rout B, Dash RR & DhupalD (2020)Posture prediction and optimization for a manual assembly operation involving lifting of weights. International Journal for Simulation and Multidisciplinary Design Optimization 11.
  2572. Rath, D., Panda, S., Mishra, A. and Pal, K. “Particle swarm optimization and machinability aspects during turning of hardened D3 steel.” Journal of Advanced Manufacturing Systems,Vol. 19, No. 04, pp. 641-662, 2020 SCOPUS.
  2573. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2574. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2575. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2576. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2577. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2578. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2579. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2580. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2581. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2582. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2583. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2584. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2585. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2586. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2587. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  2588. Panda, S., Mishra, D., and Biswal, B. B., (2013), Revolute manipulator workspaceoptimization: A comparative study, Applied Soft Computing, Elsevier, Vol. 13, pp. 899-910.
  2589. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2590. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  2591. Satapathy, A., Pradhan, M.K., Mishra, D., and Patnaik, A., (2012), Fabrication, MechanicalCharacterization and FTIR Spectroscopic Analysis of Fish Scale Reinforced Epoxy Composites,Advanced Materials Research, Trans Tech, Vol. 445, pp. 889-892.
  2592. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2593. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2594. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2595. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2596. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2597. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2598. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2599. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2600. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2601. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2602. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2603. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2604. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2605. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2606. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  2607. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2608. Amalana Panda, Ashok Kumar Sahoo, Isham Panigrahi, Arun Kumar Rout, “Prediction models for on-line cutting tool and machined surface condition monitoring during hard turning considering vibration signal”, Mechanics & Industry, 21, 520, 2020.
  2609. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  2610. Rout B, Tripathy PP, Dash RR & Dhupal D ;(2020)“Optimization of posture prediction using MOO in brick stacking operation. Computational Intelligence in Data Mining, 461-472.
  2611. Pal, K., and Pal, S. K., “Multi-objective optimization of pulsed gas metal arc welding process using neuro NSGA-II” Journal of The Institution of Engineers (India): Series C, Vol 100, pp. 501–510 2019 SCOPUS.
  2612. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo, “Effect of marble paticle on physic-mechanical behavior of glass fiber reinforced epoxy composites”, Int. J. of Integrated Engineering, 11(06), 93-102, 2019.
  2613. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2614. Panda A, Das SR & Dhupal D ;(2019)“Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects”Journal of Advanced Manufacturing Systems 18 (04), 625-655.
  2615. Priyadarshini, M and Pal, K, “A comparative study for machining of Ti-6Al-4V alloy for multi-criteria response”, Journal of Advanced Manufacturing Systems, Vol. 17(4), pp-515-531, 2018 SCOPUS.
  2616. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2617. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2618. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2619. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2620. Patel, B.C., Acharya, S.K., and Mishra, D., (2012), Environment effect of water absorption andflexural strength of red mud filled jute fibre/polymer composite, International Journal ofEngineering, Science and Technology, Vol. 4, No. 4, pp. 49-59.
  2621. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2622. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2623. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2624. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2625. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2626. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  2627. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2628. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2629. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2630. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2631. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2632. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  2633. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2634. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2635. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2636. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2637. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2638. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2639. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2640. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2641. Panda, S., Mishra, D., Biswal, B.B., and Choudhury, B.B., (2012), Robot WorkspaceOptimization using a Novel Modified Differential Evolutionary Technique, InternationalJournal of Computational Methods, World Scientific, Vol. 9, No. 3, pp. 1250034-1-21.
  2642. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2643. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2644. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2645. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2646. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2647. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2648. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2649. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  2650. Priyadarshini, M and Pal, K, “Multi-objective optimisation of EDM process using hybrid Taguchi-based methodologies for Ti-6Al-4V alloy”, International Journal of Manufacturing Research, Inderscience Publications, 2016, Vol. 11 (2), pp.144-166 SCOPUS.
  2651. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo , “Tribomechanical performance of glass–epoxy hybrid composites filled with marble powder with the taguchi design and artificial neural network”, Composites: mechanics, computations, applications,10(1),17-38, 2019.
  2652. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  2653. Dixit SR, Das SR & Dhupal D (2019)“Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach”Journal of Industrial Engineering International 15 (2), 333-349.
  2654. Pal, K, and Pal, S K., “Sensor based prediction of weld microstructure in pulsed MIG welding” International Journal of Microstructure and Materials Properties, Inderscience Publications, 2015 Vol 10(5-6), pp.402- 434, SCOPUS.
  2655. Arun Kumar Rout, Jitesh Kumar Singh, An overview of advanced fiber reinforced polymer composites and it’s applications, International Journal of Mechanical and Production Engineering Research and Development (IJMPERD), 8, 311-318, 2018.
  2656. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2657. Rout B, Dash RR & Dhupal D ;(2019)“Optimal posture prediction in brick stacking operation for reducing ergonomic risk factor” Int. J. Recent Technol. Eng., 1835-1841.
  2658. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2659. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2660. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2661. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2662. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2663. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2664. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2665. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2666. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  2667. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2668. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2669. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2670. Panda, S., Mishra, D., and Biswal, B. B., (2012) A Multi-objective Workspace Optimization of3R Manipulator Using Modified PSO, LNCS, Springer-Verlag, Vol. 7677, pp. 90-97.
  2671. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2672. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2673. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2674. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  2675. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2676. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2677. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2678. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2679. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2680. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2681. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2682. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2683. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2684. Suresh, S.M., Mishra, D., Srinivasan, A., Arunachalam, R.M., and Sasikumar, R., (2011),Production and characterization of micro and nano Al2O3 particle reinforced LM25aluminium alloy composite, ARPN Journal of Engineering and Applied Sciences, Vol. 6, No. 6,pp-94-98.ii
  2685. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2686. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2687. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2688. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2689. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2690. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2691. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Experimental investigation of various machining attributes and cost estimation during machining of hardened AISI 4340 steel with untreated and cryo treated cermet inserts. Mechanics & Industry, 21(1), 110.
  2692. Panda A, Das SR & Dhupal D ;(2019)“Statistical Analysis of Surface Roughness Using RSM in Hard Turning of AISI 4340 Steel with Ceramic Tool”Advances in Industrial and Production Engineering, 17-26.
  2693. Pal, K, and Pal, S K., “Soft Computing Methods Used for the Modeling and Optimization of Gas Metal Arc Welding: A Review”, International Journal of Manufacturing Research, Inderscience Publications, 2011, Vol. 6(1), pp. 15 - 29,SCOPUS.
  2694. Jnanaranjan Kar, Arun kumar Rout, Alekh kumar Sutar , “Physical ,mechanical and erosion characterization of palm leaf stalk fibre reinforced epoxy composites filled with palm leaf stem stalk(PLSS) powder ” BioResources,13(4),7212-7231, 2018.
  2695. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D., Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol.42, No.11, 559, 2020, SCIE-IF: 2.220.
  2696. Jena PC, Pradhan B & Dhupal D ; (2019)“Modeling and Numerical Analysis of Advanced Machining for Orthotic Components”Design, Development, and Optimization of Bio-Mechatronic Engineering Products, 230-271.
  2697. Sahu S K., Mishra D., and Pal K. “A comparative study between weldability of polycarbonate and nylon-6 using different pin geometries in friction stir welding”, ProcIMechE Part B: Journal of Engineering Manufacture, Sage publications. (Accepted, In-Press), 2021 SCI/SCOPUS
  2698. Ray,S., Rout A.K. and Sahoo,A.K , “Development and characterization of glass/polyester composites filled with industrial wastes using statistical techniques”, Indian Journal of Engineering & material sciences,25,169-182, 2018.
  2699. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2700. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2701. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2702. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2703. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2704. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2705. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2706. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2707. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2708. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2709. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2710. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2711. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2712. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2713. Pradhan, S., Das, S.R., Nanda, B.K., Jena, P.C., Dhupal, D.,Machining of Hard stone Quartz With Modified AJM Process using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis, Surface Review And Letters, 2020, 2050049 SCIE-IF: 1.152.
  2714. Patel, B.C., Acharya, S.K., and Mishra, D., (2011), Effect of stacking sequence on the erosionwear behavior of jute and jute-glass fabric reinforced epoxy composite, International Journalof Engineering, Science and Technology, Vol. 3, No. 1, pp. 213-219.
  2715. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2716. Panda, A., Ranjan Das, S., & Dhupal, D. (2019). Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects. Journal of Advanced Manufacturing Systems, 18(04), 625-655.
  2717. B.K.Barik, N.Sahu, A.Ekka, P.Ekka, S.Padhan, L.Mishra, G.Behera, R.Chabra and L.Swain “Manufacturing Paradigms and Evolution”,Current Advances in Mechanical Engineering,pp.705-714, https://doi.org/10.1007/978-981-33-4795-3_64
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  2720. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults detection of a single cracked beam by theoretical and experimental analysis using vibration signatures, Journal of Mechanical and Civil Engineering, 4.3,1-18, 2012.
  2721. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults detection of a single cracked beam by theoretical and experimental analysis using vibration signatures, Journal of Mechanical and Civil Engineering, 4.3,1-18, 2012.
  2722. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2723. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2724. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2725. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2726. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
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  2728. Choudhury, B.B., Biswal, B.B., Mishra, D., and Panda, S. (2009), A Practical Approach toRobot Selection for Industrial Applications, IEEE Press, pp.1-6.
  2729. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2730. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2731. Das, S. R., Kumar, A., & Dhupal, D. (2015). Surface roughness analysis of hardened steel using TiN coated ceramic inserts. International Journal of Machining and Machinability of Materials, 17(1), 22-38.
  2732. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults detection of a single cracked beam by theoretical and experimental analysis using vibration signatures, Journal of Mechanical and Civil Engineering, 4.3,1-18, 2012.
  2733. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults detection of a single cracked beam by theoretical and experimental analysis using vibration signatures, Journal of Mechanical and Civil Engineering, 4.3,1-18, 2012.
  2734. Arun Kumar Rout & Alok Satapathy , “Development and Characterization of Rice Husk Filled Glass Fiber Reinforced Epoxy Bio-Composites” , Composites: Mechanics, Computations, Applications,An International Journal. 3(2) ,1-12 ,2012
  2735. P. Mohapatra and N. K. Kund (Sole Co-author) (2022), Impact of ultrasonic power on liquid fraction, microstructure and physical characteristics of A356 alloy molded through cooling slope, Journal of Central South University (Springer), Vol. 29, pp. 1098-1106 (Impact Factor = 3.7) (SCI).
  2736. Dash L, Padhan S, Das A, Das SR. Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. May 2021. doi:10.1177/0954406221993844
  2737. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults detection of a single cracked beam by theoretical and experimental analysis using vibration signatures, Journal of Mechanical and Civil Engineering, 4.3,1-18, 2012.
  2738. Dhupal D , Doloi B & Bhattacharyya B;(2007)“Pulsed Nd: YAG laser turning of micro-groove on aluminum oxide ceramic (Al2O3)” International Journal of Machine Tools and Manufacture 48 (2), 236-248.
  2739. Pal, K, Bhattacharya, S, and Pal, S K., “Investigation on arc sound and metal transfer modes for on-line monitoring in pulsed gas metal arc welding”, Journal of Materials Processing Technology, Elsevier Publications,2010 [Vol. 210(10), pp.1397-1410, SCI/SCOPUS.
  2740. Panda,A., Sahoo,A.K., Panigrahi,I.,Rout A.K.,“Investigating machinability in hard turning of aisi 52100 bearing steel through performance measurement: qr, ann and gra study”, International journal of automotive and mechanical engineering , 15 (1),4935-4961, 2018.
  2741. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2742. Jena PC, Pradhan B & Dhupal D ; (2019)“Experimental Investigation on ECMM with Nimonic 75 Alloy for Prosthetic Component” Design, Development, and Optimization of Bio-Mechatronic Engineering Products 126-157.
  2743. Goswami N. and Pal K. “Comparative assessment on weldability of Al 6061 to polycarbonate for dissimilar sheets placement in friction stir lap welding using sensor signal”, ProcIMechE Part C: J Mechanical Engineering Science, Sage publications. (Accepted, In-Press), 2021 SCI/SCOPUS.
  2744. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2745. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2746. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2747. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2748. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2749. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2750. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2751. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2752. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2753. Sarada Prasad Parida, Pankaj Charan Jena*, “Advances of Shear Deformation Theory for Analyzing the Dynamics of Laminated Composite Plates: An Overview”, Mechanics of Composite Materials, Vol. 56, No. 4, 455–484, 2020. SCIE-IF: 1.33.
  2754. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2755. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2756. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2757. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2758. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2759. Das, A., Pradhan, O., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). Performance appraisal of various nanofluids during hard machining of AISI 4340 steel. Journal of Manufacturing Processes, 46, 248-270.
  2760. Panda, S., and Mishra, D. and Biswal, B. B., (2011), Determination of optimum parameterswith multi-performance characteristics in laser drilling- A grey relational analysis approach,Int. J. Advance Manufacturing Technology, Springer, Vol.54, pp. 957-967.
  2761. Choudhury, B.B., Biswal, B. B., Mishra, D. and Mahapatra R.N., (2011), Appropriateevolutionary algorithm for scheduling in FMS, International Journal of Applied EvolutionaryComputation, IGI-Global, Vol. 2, No. 3, pp. 15-26.
  2762. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2763. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2764. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2765. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2766. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2767. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2768. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2769. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2770. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2771. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2772. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2773. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2774. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2775. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2776. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2777. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  2778. Jesthi,D.K., Mandal, P., Rout A.K., Nayak,R.K., “Effect of carbon/glass fiber symmetric inter-ply sequence on mechanical properties of polymer matrix composites”,Procedia manufacturing, 20, 530-535, 2018.
  2779. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  2780. Sahu SK, Naik S, Das SR & Dhupal D ;(2019)“Parametric optimization of surface roughness and overcut in electric discharge machining of Al-SiC using copper electrode”Renewable Energy and its Innovative Technologies, 99-116.
  2781. Sahu S K., Mishra D., and Pal K. “Optimizing process parameters for joint strength efficiency improvement in friction stir welding of polycarbonate sheets”, Material Science and Engineering Technology. Vol. 52, pp. 739–761, 2021 SCI/SCOPUS.
  2782. Barik T. and Pal K. “Prediction of drilled hole quality in bidirectional woven carbon fiber reinforced plastic using wavelet packets of force–torque signals”, Journal of Reinforced Plastics and Composites,doi.org/10.1177/07316844211011757, 2021 SCI/SCOPUS.
  2783. Jesthi,D.K., Mandal, P., Rout A.K., Nayak,R.K., “Enhancement of mechanical and specific wear properties of glass/carbon fiber reinforced polymer hybrid composite”, Procedia manufacturing, 20, 536-541, 2018.
  2784. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2785. Panda A, Das SR & Dhupal D ;(2018)“Hard Turning of HSLA Steel with Coated Ceramic InsertsAn Assessment, Modelling, Optimisation and Cost Analysis”International Journal of Automotive & Mechanical Engineering 15 (4).
  2786. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2787. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2788. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2789. Biswal, B.B., Choudhury, B.B., Mishra, D., Dash, P., (2010), An overview and comparison offour sequence generating methods for robotic assembly. International Journal ofManufacturing Technology and Management, Inderscience, Vol. 20, No.1/2/3/4, pp. 169–196.
  2790. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2791. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2792. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2793. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2794. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2795. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  2796. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2797. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2798. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2799. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2800. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2801. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2802. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  2803. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2804. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2805. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2806. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2807. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2808. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2809. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2810. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2811. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2812. Panda, S., and Mishra, D., (2010), Development of a tribological failure knowledge model,International Journal of Knowledge Engineering & Data Mining, Inderscience, Vol.1, No. 2,pp. 99-114.
  2813. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2814. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2815. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2816. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2817. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2818. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2819. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  2820. Sahu S. K., Mishra D., and Pal K. “Investigation on Mechanical Behavior of Friction Stir Welded Nylon-6 using Temperature Signatures” Journal of Materials Engineering and performance, Springer publications, Vol. 29, pp. 5238–5262, 2020SCI/SCOPUS.
  2821. Arun kumar Rout, Manoj kumar, Banabihari Nayak, “Tribo-mechanical performance of silicon carbide-reinforced aa6061 metal matrix composites using the taguchi methodology”, Composites: Mechanics”, Computations, Applications: An International Journal, 8(1),67-83, 2017.
  2822. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  2823. Panda A, Das SR, Dhupal D & Davim JP;(2018)“Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis”Journal of Manufacturing Technology Research 10 (3/4), 113-141.
  2824. Panda A, Das SR & Dhupal D ;(2018)“Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340)”Matériaux & Techniques 106 (4), 404.
  2825. Sahu S. K., Mishra D., Pal K. and Pal S. K. “Multi Sensor based strategies for accurate monitoring of friction stir welding of polycarbonate sheets” ProcIMechE Part C: J Mechanical Engineering Science, Sage publications.doi.org/10.1177/0954406220960772, 2020 SCI/SCOPUS.
  2826. AmlanaPanda, Ashok KumarSahoo, Arun Kumar Rout, “Investigations on surface quality characteristics with multi-response parametric optimization and correlations”,Alexandria engineering Journal, Elsevier, 55, 1625-1663, 2016.
  2827. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2828. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2829. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2830. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2831. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2832. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2833. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2834. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2835. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2836. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2837. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2838. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2839. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2840. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2841. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  2842. Biswal, B.B., Panda, S. and Mishra, D., (2010), Optimization for Workspace Volume of 3RRobot Manipulator Using Modified Differential Evolution, Swarm, Evolutionary, andMemetic Computing, LNCS, Springer-Verlag, Vol. 6466, pp. 111-118.
  2843. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2844. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  2845. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2846. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2847. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  2848. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  2849. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  2850. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2851. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2852. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2853. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  2854. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
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  2857. Mohanty, R.P., Mishra, D. and Mishra, T., (2010), Production as a service: An analysis ofTheory of Constraints (TOC) methods, Journal of Studies on Manufacturing, HyperSciences,Vol.1, No. 2-3, pp. 108-119.
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  2860. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  2861. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
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  2864. Amlana Panda, Ashok Kumar Sahoo, Arun Kumar Rout, “Multi-attribute decision making parametric optimization and modeling in hard turning using ceramic insert through grey relational analysis: A case study,” Decision Science Letters, 5, 581-592, 2016
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  2866. Arun kumar Rout, Jnanaranjan Kar, Dipak Kumar Jesthi and Alekh Kumar Sutar, “Effect of surface treatment on the physical, chemical and mechanical properties of palm tree leaf stalk fibers.”Bio resources, 11(2), 4432-4445, 2016.
  2867. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2868. Das SR, Panda A & Dhupal D ;(2017)“Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert” Mechanics of Advanced Materials and Modern Processes 3 (1), 1-14.
  2869. Barik T., Pal K.,Parimita S, Sahoo P. and Patra K.“Monitoring of hole surface integrity in drilling of bi-directional woven CFRP composites”, ProcIMechE Part C: J Mechanical Engineering Science, Sage publications, DOI: 10.1177/0954406220906292, 2020 SCI/SCOPUS.
  2870. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2871. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2872. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2873. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2874. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2875. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
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  2878. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2879. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2880. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  2881. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2882. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2883. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2884. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  2885. Sahu, S.P., Satapathy, A., Mishra, D., Patnaik, A., and Sreekumar, K.P., (2010), Triboperformanceanalysis of fly ash–aluminum coatings using experimental design and ANN,Tribology Transactions, Taylor and Francis, Vol. 53, No. 4, pp. 533-542.
  2886. Mohanty, R.P., Mishra, D. and Mishra, T., (2009), Comparative study of productionoutsourcing models, Journal of Advances in Management Research, Emerald, Vol. 6, No. 1,pp. 41-69.
  2887. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  2888. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  2889. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  2890. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2891. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  2892. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  2893. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2894. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2895. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2896. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2897. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  2898. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
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  2903. Arun Kumar Rout ,Alok Satapathy, “Study on mechanical and erosion wear performance of granite filled glass-epoxy hybrid composites Proc IMechE Part L”,Journal of Materials Design and Applications, 229(1), 38 – 50 ,2015.
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  2905. Nanda BK, Mishra A & Dhupal D ; (2017)“Fluidized bed abrasive jet machining (FB-AJM) of K-99 alumina ceramic using SiC abrasives”The International Journal of Advanced Manufacturing Technology 90 (9), 3655-3672.
  2906. Rath, D., Panda, S. and Pal, K. “Dry turning of AISI D3 steel using a mixed ceramic insert: A study.” ProcIMechE Part C: J Mechanical Engineering Science. Vol. 233(19–20), pp. 6698–6712 2019 SCI/SCOPUS.
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  2908. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
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  2911. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  2912. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  2913. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  2914. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
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  2917. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  2918. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
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  2920. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  2921. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  2922. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  2923. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
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  2931. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
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  2934. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  2935. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  2936. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  2937. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2938. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2939. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2940. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2941. Panda, S., and Mishra, D., (2009), A Multi-Objective Optimum Design of Dynamically LoadedJournal Bearing for a Prescribed À Extent Film, SAE Technical paper Series, SAE International,Document no. 2009-01-1679.
  2942. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2943. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2944. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2945. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  2946. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  2947. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2948. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  2949. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2950. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2951. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2952. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2953. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2954. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2955. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2956. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2957. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2958. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2959. Anil Swain, Santosh Kumar Sahu , Anisha Ekka and Sudhansu Ranjan Das “Parametric Optimization Of Nd:YAG Laser Microgrooving of Alumina Ceramic Using Integrated RSM-PSO Approach”,Emerging Trends in Mechanical Engineering ,pp.1-10, https://doi.org/10.1007/978-981-32-9931_1
  2960. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2961. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2962. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2963. Choudhury, B.B., Biswal, B.B., Mishra, D., and Mahapatra, R.N., (2009), AppropriateEvolutionary Algorithm for Scheduling in FMS, Proc. of IEEE Computer Society, WorldCongress on Nature & Biologically Inspired Computing, pp.1139-1144.
  2964. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  2965. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2966. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2967. Dhupal D , Doloi B & Bhattacharyya B;(2007)“Optimization of process parameters of Nd: YAG laser microgrooving of Al2TiO5 ceramic material by response surface methodology and artificial neural network algorithm” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 221 (8) 1341-1350.
  2968. Arun Kumar Rout & Alok Satapathy , “Study on Mechanical and Tribo-Performance of Rice-husk Filled Glass-Epoxy Hybrid Composites , Materials and Design” , 41 ,131-141, 2012
  2969. S. K. Sahu and N. K. Kund (Sole Co-author) (2023), Influence of slurry delivery rate and height from cooling slope outlet on solidification and structural behaviors of molded AZ91 magnesium alloy, Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C) (Sage), Vol. 237, pp. 1719-1727 (Impact Factor: 1.8) (SCI).
  2970. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578. https://doi.org/10.12989/SEM.2020.76.5.561
  2971. Sunita Sethy , Jaydev Rana “Improvement of Electro-Discharge machining performance of Ti-6Al-4V using Silicon Carbide powder mixed in EDM oil and optimization of process parameters” 3rd Online International Conference ICRAIMR 2020 organised by Foundation of Innovative Research at Asian Institute of Technology, THAILAND, European journal of Molecular and clinical medicine 2020, Volume 7(issue 11, Page 1643-1655, (online ISSN: 2515-8260)
  2972. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  2973. Pal, K, Bhattacharya, S, and Pal, S. K., “Prediction of metal deposition from arc sound and weld temperature signatures in pulsed MIG welding”. International Journal of Advanced Manufacturing Technology, Springer Verlag, 2009,Vol.45(11-12), pp.1113-1130, SCI/SCOPUS.
  2974. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using
  2975. Chatterjee, S, Chatterjee, R, Pal, S, Pal, K, and Pal S K., “Adaptive chirplet transform for sensitive and accurate monitoring of pulsed gas metal arc welding process", International Journal of Advanced Manufacturing Technology, Springer Verlag, 2012, Vol. 60(1-4), pp. 111- 125, SCI/SCOPUS.
  2976. A. Praharaj, D. Behera, P. Rath, T.K. Bastia , A.K.Rout , “BisGMA/EPDM/amine functionalized MWCNTs based nanocomposites Pigment & Resin Technology”, Emerald ,44(5) ,266-275 ,2015
  2977. N. K. Kund (Sole Author) (2024), Effect of the nozzle diameter and melt velocity at the tundish outlet on solidification along microstructural and mechanical properties of the cooling slope casted AZ91 Mg alloy, Canadian Metallurgical Quarterly (Taylor & Francis), Vol. 63, pp. 247-255 (Impact Factor = 1.3) (SCI).
  2978. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2979. Das SR, Dhupal D & Kumar A;(2015)“Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts”Journal of Mechanical Science and Technology 29 (10), 4329-4340.
  2980. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2981. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2982. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2983. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2984. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2985. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2986. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2987. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Study of Composite Cracked Beam by Changing the Angle of Bidirectional Fibres”, Iranian Journal of Science and Technology, Transactions A: Science, Vol.40(1):PP.27-37, 2016, DOI 10.1007/s40995-016-0006-yISSN 1028-6276. SCOPUS, SCIE-IF:1.194
  2988. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2989. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2990. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2991. Panda, S., and Mishra, D., (2008), Test-rigs for dynamically loaded journal bearing: A study,SAE Technical Paper Series, SAE International, Document no. 2008-01-2759.
  2992. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2993. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2994. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2995. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2996. Dhupal, D., Mohanty, S., Dixit, S. R., Das, S. R., & Nanda, B. K. (2018). Micromachining on Al-SiC based metal matrix composite using DPSS laser. Materials Today: Proceedings, 5(5), 11304-11318.
  2997. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  2998. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  2999. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3000. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3001. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3002. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3003. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3004. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3005. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3006. Das, A., Das, S. R., Panda, A., & Patel, S. K. (2022). Experimental investigation into machinability of hardened AISI D6 steel using newly developed AlTiSiN coated carbide tools under sustainable finish dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(5), 1889-1905.
  3007. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3008. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3009. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3010. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3011. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3012. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3013. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3014. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3015. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3016. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3017. Parida, S. P., Jena, P. C., Das, S. R., Basem, A., Khatua, A. K., & Elsheikh, A. H. (2024). Transverse vibration of laminated-composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241256589.
  3018. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3019. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3020. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3021. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3022. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3023. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3024. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3025. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3026. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3027. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3028. Parida, S. P., Mishra, D., Padhy, R. L., Jena, P. C., Das, S. R., Basem, A. A., ... & Elsheikh, A. (2024). Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder. ES Materials & Manufacturing, 24, 1161.
  3029. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
  3030. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Theoretical, Numerical (FEM) and Experimental Analysis of composite cracked beams of different boundary conditions using vibration mode shape curvatures”, International Journal of Engineering and Technology, ISSN : 0975-4024, Vol. 6 No 2, PP.509-518, 2014.SCOPUS
  3031. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Theoretical, Numerical (FEM) and Experimental Analysis of composite cracked beams of different boundary conditions using vibration mode shape curvatures”, International Journal of Engineering and Technology, ISSN : 0975-4024, Vol. 6 No 2, PP.509-518, 2014.SCOPUS
  3032. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
  3033. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
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  3035. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
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  3037. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
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  3040. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Theoretical, Numerical (FEM) and Experimental Analysis of composite cracked beams of different boundary conditions using vibration mode shape curvatures”, International Journal of Engineering and Technology, ISSN : 0975-4024, Vol. 6 No 2, PP.509-518, 2014.SCOPUS
  3041. Nanda, B. K., Dhupal, D., Buda, D., & Das, S. R. (2018). Abrasive jet drilling of alumina ceramic with pressurized-fluidized bed set-up. Materials Today: Proceedings, 5(5), 12570-12578.
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  3049. N. K. Kund (Sole Author) (2015), Influence of plate length and plate cooling rate on solidification produced by using oblique plate, Transactions of Nonferrous Metals Society of China (Elsevier), Vol. 25, pp. 61-71 (Impact Factor: 4.7) (SCI).
  3050. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Theoretical, Numerical (FEM) and Experimental Analysis of composite cracked beams of different boundary conditions using vibration mode shape curvatures”, International Journal of Engineering and Technology, ISSN : 0975-4024, Vol. 6 No 2, PP.509-518, 2014.SCOPUS
  3051. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3052. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3053. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3054. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3055. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3056. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3057. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3058. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3059. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3060. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3061. Sarangi, S., Behera, A. K., Bajpai, S., Sahoo, S., Sethy, S., & Das, S. R. (2024). Application of tri-vector analysis to identify the optimum coating thickness in induced draft fans. Surface Review and Letters. https://doi.org/10.1142/S0218625X24501336
  3062. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3063. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3064. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3065. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3066. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3067. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3068. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3069. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3070. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3071. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3072. Sethy, S., Das, S. R., Rana, J., Behera, A. K., & Gupta, M. K. (2024). Performance evaluation and economic assessment in electrical discharge machining of SS316 using graphite powder dispersed in biodegradable palm oil dielectric. Surface Review and Letters, 2450120.
  3073. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3074. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3075. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3076. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3077. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3078. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3079. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3080. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3081. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3082. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3083. Das, A., Kumar, A., Padhan, S., Das, S. R., Satpathy, M. P., & Patel, S. K. (2024). Hard turning of AISI H10 steel using AlTiN and AlTiSiN coated carbide tools: comparative machining performance evaluation and economic assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 277.
  3084. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3085. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3086. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3087. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3088. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3089. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3090. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3091. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3092. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3093. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3094. Samantaray, S. R., Pradhan, S., Dhupal, D., Padhan, S., & Das, S. R. (2024). Comparative performance investigation and sustainability evaluation between hot-AJM and AJM during machining of zirconia ceramic using Al2O3 abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(5), 263.
  3095. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3096. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3097. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3098. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3099. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3100. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3101. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3102. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3103. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3104. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3105. Panda, D., Sahu, S. K., & Das, S. R. (2024). Comparative performance evaluation and economic assessment between traditional and vibration assisted EDM during machining of Inconel 718. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062241244949.
  3106. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3107. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3108. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3109. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3110. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3111. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3112. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3113. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3114. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3115. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3116. Sethy, S., Rana, J., Sharma, P., & Das, S. R. (2024). Comparative performance investigation and sustainability assessment in electrical discharge machining of SS316 using different dielectrics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 238(7), 2718-2733.
  3117. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3118. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3119. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3120. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3121. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3122. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3123. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3124. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3125. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3126. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3127. Roy, S., Das, A., Kumar, R., Das, S. R., Rafighi, M., & Sharma, P. (2024). Exploring the viability of alternative cooling-lubrication strategies in machining processes: A comprehensive review on the performance and sustainability assessment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 09544054241229472.
  3128. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3129. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3130. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3131. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3132. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3133. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3134. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3135. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3136. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3137. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3138. Padhan, S., Das, A., & Das, S. R. (2024). Analysis, modelling and optimization on tool vibration in machining of nitronic 60 with SiAlON ceramic tool. Advances in Materials and Processing Technologies, 1-14.
  3139. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3140. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3141. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3142. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3143. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3144. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3145. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3146. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3147. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3148. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3149. Dhupal, D., Panigrahi, D., Rout, S., Bhuyan, R. K., Nayak, S., Jena, P. C., & Das, S. R. (2024). Generation of effusion holes on ultra-high temperature alloy by micro electro-discharge machining process. Surface Review and Letters, 31(02), 2450015.
  3150. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3151. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3152. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3153. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3154. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3155. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3156. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3157. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3158. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3159. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
  3160. Das, A., Barrenkala, D., Das, S. R., Patel, S. K., Somani, N., & Kumar, C. S. (2024). Comparative performance evaluation between ta-C and TiAlCrN coated tools during milling of additively manufactured CFRP composite. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089231223021.
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  3166. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3167. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3168. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3169. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3170. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  3171. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  3172. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3173. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3174. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  3175. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  3176. Pankaj Charan Jena, N.Biswal, and R. P.Mohanty, An art of review on dynamic Behavior of sic particulate reinforced polymer composite Beams, International Journal of Engineering Sciences & Research Technology, Vol.5.3, 30-33, 2016.
  3177. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3178. (a) Indexed
    Mishra, D., Panda, S., and Pattnaik, S., (2011), Workspace volume optimization of 3RManipulator Using a Novel Differential Evolution, ACSE, Dubai, pp.540-543.
  3179. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3180. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3181. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3182. Dhupal, D., Naik, S., & Das, S. R. (2018). Modelling and optimization of Al–SiC MMC through EDM process using copper and brass electrodes. Materials Today: Proceedings, 5(5), 11295-11303.
  3183. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3184. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3185. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3186. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3187. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3188. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3189. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3190. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3191. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3192. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3193. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). Investigation on Surface Roughness and Power Consumption for Sustainability Assessment in Hard Turning of HSLA Steel With SPPP?AlTiSiN–Coated Carbide Tool Under Various Cooling?Lubrications. Lubrication Science. https://doi.org/10.1002/ls.1717
  3194. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3195. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3196. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3197. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3198. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3199. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3200. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3201. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3202. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3203. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3204. Roy, S., Pradhan, A., Padhan, S., Das, A., Das, S. R., & Dhupal, D. (2024). ANALYSIS ON POWER CONSUMPTION FOR LIFE CYCLE SUSTAINABILITY ASSESSMENT IN HARD TURNING OF AISI 4140 STEEL USING SPPP— AlTiSiN-COATED CARBIDE TOOL UNDER VARIOUS CUTTING ENVIRONMENTS. Surface Review and Letters (SRL), 31(06), 1-26.
  3205. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3206. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3207. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3208. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3209. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3210. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3211. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3212. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3213. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3214. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3215. Somani, N., Walia, A. S., Gupta, N. K., Panda, J. P., Das, A., & Das, S. R. (2023). Data driven surrogate model-based optimization of the process parameters in electric discharge machining of D2 steel using Cu-SiC composite tool for the machined surface roughness and the tool wear. Revista de Metalurgia, 59(2), e242-e242.
  3216. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3217. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3218. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3219. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3220. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3221. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
  3222. Kumar, N., Kumar, A., Sethy, S., & Das, S. R. (2023). Investigation and optimization in electrochemical arc drilling of Ni55. 7Ti nickel–titanium shape memory alloy with molybdenum electrode. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45(9), 448.
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  3359. Rafighi, M., Özdemir, M., ?ahino?lu, A., Kumar, R., & Das, S. R. (2022). Experimental assessment and topsis optimization of cutting force, surface roughness, and sound intensity in hard turning of AISI 52100 steel. Surface Review and Letters, 29(11), 2250150.
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  3403. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
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  3407. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  3408. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., Somani, N., & Gupta, N. K. (2022). Machine Learning-based modeling and optimization in hard turning of AISI D6 steel with advanced AlTiSiN-coated carbide inserts to predict surface roughness and other machining characteristics. Surface Review and Letters, 29(10), 2250137.
  3409. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  3410. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., Somani, N., & Gupta, N. K. (2022). Machine Learning-based modeling and optimization in hard turning of AISI D6 steel with advanced AlTiSiN-coated carbide inserts to predict surface roughness and other machining characteristics. Surface Review and Letters, 29(10), 2250137.
  3411. Rafighi, M., Özdemir, M., Das, A., & Das, S. R. (2022). Machinability investigation of cryogenically treated hardened AISI 4140 alloy steel using CBN insert under sustainable finish dry hard turning. Surface Review and Letters, 29(04), 2250047.
  3412. Das, A., Das, S. R., Panda, J. P., Dey, A., Gajrani, K. K., Somani, N., & Gupta, N. K. (2022). Machine Learning-based modeling and optimization in hard turning of AISI D6 steel with advanced AlTiSiN-coated carbide inserts to predict surface roughness and other machining characteristics. Surface Review and Letters, 29(10), 2250137.
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  3414. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3415. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3416. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3417. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3418. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3419. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3420. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3421. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3422. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3423. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3424. Das, A., Gupta, M. K., Das, S. R., Panda, A., Patel, S. K., & Padhan, S. (2022). Hard turning of AISI D6 steel with recently developed HSN2-TiAlxN and conventional TiCN coated carbide tools: comparative machinability investigation and sustainability assessment. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 138.
  3425. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3426. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3427. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3428. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3429. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3430. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3431. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3432. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
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  3434. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3435. Padhan, S., Das, S. R., Das, A., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2022). Machinability investigation of Nitronic 60 steel turning using SiAlON ceramic tools under different cooling/lubrication conditions. Materials, 15(7), 2368.
  3436. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3437. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3438. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3439. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3440. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3441. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3442. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
  3443. Das, A., Kamal, M., Das, S. R., Patel, S. K., Panda, A., Rafighi, M., & Biswal, B. B. (2022). Comparative assessment between AlTiN and AlTiSiN coated carbide tools towards machinability improvement of AISI D6 steel in dry hard turning. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(6), 3174-3197.
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  3452. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
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  3455. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3456. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3457. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3458. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3459. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3460. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3461. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3462. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
  3463. Das, S. R., Panda, A., & Dhupal, D. (2017). Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert. Mechanics of Advanced Materials and Modern Processes, 3, 1-14.
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  3465. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  3466. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  3467. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  3468. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
  3469. Shakti P.Jena, Dayal R.Parhi, and Pankaj Charan Jena, Dynamic Response of Damaged Cantilever Beam Subjected to Traversing Mass, International Journal for Technological Research In Engineering (IJTRE) 2(7), 860-865, 2015.
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  3471. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3472. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3473. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3474. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3475. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3476. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3477. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3478. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3479. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3480. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using human upper body movements. International Journal on Interactive Design and Manufacturing (IJIDeM), 16(1), 291-303.
  3481. Pradhan S & Dhupal D; (2022) "Experimental and simulation approach of surface generation on K-80 alumina ceramic by recently developed sustainable FB-HAJM using novel nozzle design”. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering; 236(6):2502-2514. doi:10.1177/09544089221093988
  3482. Pradhan S, Sahu S, Das S R & Dhupal D; (2022) “Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives” International Journal of Abrasive Technology. Vol. 10, No. 4, pp. 298-329. https://doi.org/10.1504/IJAT.2021.120291.
  3483. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3484. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3485. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3486. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3487. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3488. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3489. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3490. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3491. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3492. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(2), 1009-1035.
  3493. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3494. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3495. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3496. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3497. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3498. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3499. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3500. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3501. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3502. Das, A., Gautam, A., Panda, A., Das, S. R., Debnath, K., Ramakrishna, C., & Patel, S. K. (2022). Comparative performance evaluation between uncoated and TiAlN+ AlCrN coated carbide tools in hard turning of AISI H11 steel. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089221110430.
  3503. Rout B, Dash R, Dhupal D & Das SR; (2022) “Optimized posture prediction for task specific during stacking process using human upper body movements”. Int J Interact Des Manuf 16, 291–303. https://doi.org/10.1007/s12008-022-00841-0
  3504. Panda SK, Rout S, Panigrahi D & Dhupal D; (2021) Investigation on Surface Morphology and Dimensional Characteristics of Micro-channels Fabricated on Titanium-V Alloy by DPSS Nd:YAG Laser. Lasers Manuf. Mater. Process. 8, 443–465. https://doi.org/10.1007/s40516-021-00156-0
  3505. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3506. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3507. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3508. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3509. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3510. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3511. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3512. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3513. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3514. Behera, R. K., Samal, B. P., Panigrahi, S. C., Das, S. R., Mohamed, A., Muduli, K., ... & Das, R. (2022). Experimental analysis on machinability aspects of sintered aluminium metal matrix (Al+ Si+ Mg+ Cu+ SiC) composite-a novel product produced by powder metallurgy method. International Journal of Materials Engineering Innovation, 13(1), 1-22.
  3515. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3516. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3517. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3518. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3519. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3520. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3521. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3522. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3523. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3524. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2022). Electrical discharge machining of engineered Al-22% SiC metal matrix composite: surface roughness analysis, optimization, economic analysis, and sustainability assessment. Process Integration and Optimization for Sustainability, 1-29.
  3525. Naik S, Das S R, Dhupal D & Khatua A K; (2022) “Electrical Discharge Machining of Engineered Al-22% SiC Metal Matrix Composite: Surface Roughness Analysis, Optimization, Economic Analysis, and Sustainability Assessment”. Process Integr Optim Sustain 6, 223–251. https://doi.org/10.1007/s41660-021-00207-1
  3526. Naik S, Das SR, Dhupal D & Khatua AK; (2021) Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22%SiC metal matrix composite. Revista de Metalurgia. 57 (4) e210. https://doi.org/10.3989/revmetalm.210
  3527. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3528. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3529. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3530. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3531. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3532. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3533. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3534. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3535. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3536. Das, A., Padhan, S., & Das, S. R. (2022). Analysis on hole overcut during micro-EDM of Inconel 718. Materials Today: Proceedings, 56, 29-35.
  3537. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3538. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3539. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3540. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3541. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3542. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3543. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3544. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3545. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3546. Das, A., Padhan, S., Das, S. R., Alsoufi, M. S., Ibrahim, A. M. M., & Elsheikh, A. (2021). Performance assessment and chip morphology evaluation of austenitic stainless steel under sustainable machining conditions. Metals, 11(12), 1931.
  3547. Pradhan S, Sahu S, Das SR & Dhupal D ;(2021)“Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives ”International Journal of Abrasive Technology. (Accepted).
  3548. Parida SP, Jena PC, Das SR, Dhupal D & Dash RR;(2021)“Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation ”Advances in Materials and Processing Technologies.1-16,https://doi.org/10.1080/2374068X.2021.1949541.
  3549. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3550. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3551. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3552. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3553. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3554. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3555. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3556. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3557. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3558. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3559. Lalatendu Dash, Smita Padhan, Anshuman Das, Sudhansu Ranjan Das, “Machinability investigation and sustainability assessment in hard turning of AISI D3 steel with coated carbide tool under nanofluid minimum quantity lubrication-cooling condition”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, doi:10.1177/0954406221993844 (2021). SCIE
  3560. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3561. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3562. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3563. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3564. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3565. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3566. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3567. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3568. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3569. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3570. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3571. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3572. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3573. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3574. Padhy, R.L., Parida, S.P., Mishra, D., Jena Pankaj Charan,. Study of damage progression due to impact of solid bodies on laminated composite plates in water. Int J Interact Des Manuf (2024). https://doi.org/10.1007/s12008-024-02128-y
  3575. Naik, S., Das, S. R., Dhupal, D., & Khatua, A. K. (2021). Analysis on surface integrity and sustainability assessment in electrical discharge machining of engineered Al-22% SiC metal matrix composite. Rev Metal, 57(4), e210.
  3576. Pradhan S, Das SR, Jena PC & Dhupal D ;(2021)“Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication” Advances in Materials and Processing Technologies.1-16,https://doi.org/10.1080/2374068X.2021.1948706.
  3577. Banerjee B, Pradhan S, Das S & Chakraborty A; (2021)“Horn design and analysis in ultrasonic machining process using ANSYS ”Advances in Materials and Processing Technologies. 1-14,https://doi.org/10.1080/2374068X.2021.1945266.
  3578. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  3579. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3580. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3581. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3582. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3583. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3584. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3585. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3586. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3587. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  3588. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  3589. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  3590. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
  3591. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3592. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3593. Pradhan, S., Das, S. R., & Dhupal, D. (2021). Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon, 13(9), 2895-2919.
  3594. Sarada Prasad Parida, Pankaj Charan Jena*, Sudhansu Ranjan Das , Ali Basem, Ajit Kumar Khatua and Ammar H Elsheikh, Transverse vibration of laminated composite-plates with fillers under moving mass rested on elastic foundation using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241256589
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  3596. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  3597. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  3598. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3599. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
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  3601. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3602. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3603. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3604. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3605. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3606. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3607. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3608. Das, S. R., Kumar, A., & Dhupal, D. (2016). Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool. International Journal of Machining and Machinability of Materials, 18(5-6), 501-521.
  3609. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  3610. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
  3611. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
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  3615. Padhan, Smita; Dash, Lalatendu; Behera, Santosh Kumar; Das, Sudhansu Ranjan (2020). Modeling and Optimization of Power Consumption for Economic Analysis, Energy-Saving Carbon Footprint Analysis, and Sustainability Assessment in Finish Hard Turning Under Graphene Nanoparticle–Assisted Minimum Quantity Lubrication. Process Integration and Optimization for Sustainability, (), –. doi:10.1007/s41660-020-00132-9
  3616. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Faults Recognition of a Single Cracked Beam with Analytical and Experimental Methods by using Vibration Signatures. International Journal of Applied Artificial Intelligence in Engineering System, 6(1), 63-76, 2014.
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  3618. Pradhan S, Dash PB, Kumari K & Dhupal D ; (2021)“Study of micro machining characteristics by Nd-YAG Laser on NiTinol shape memory alloy” Advances in Materials and Processing Technologies.1-15,https://doi.org/10.1080/2374068X.2021.1946757.
  3619. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3620. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3621. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3622. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3623. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3624. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3625. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3626. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3627. Sarada Prasad Parida, Pankaj Charan Jena*, Mukul Swain, Krushna Prasad Shadangi*, Fabrication of Geopolymer Composites using Egg-Shell and Fly-ash: Comparison between the Strength and Stability, Physio-Chemical and Mechanical Properties, Process Safety and Environmental Protection 187 (2024) 1140–1149, https://doi.org/10.1016/j.psep.2024.05.020
  3628. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3629. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3630. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3631. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3632. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3633. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3634. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3635. Parida, S. P., Jena, P. C., Das, S. R., Dhupal, D., & Dash, R. R. (2022). Comparative stress analysis of different suitable biomaterials for artificial hip joint and femur bone using finite element simulation. Advances in Materials and Processing Technologies, 8(sup3), 1741-1756.
  3636. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3637. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3638. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3639. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3640. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3641. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3642. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3643. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3644. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3645. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3646. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3647. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3648. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3649. Sarada Prasad Parida, Debashish Mishra, Rajiv Lochan Padhy, Pankaj Charan Jena,* Sudhansu Ranjan Das, Ali A. Basem, Debabrata Dhupal and Ammar Elsheikh, Effect of Alkali Treatment on Mechanical and Buckling Behaviour of Natural Fiber Reinforced Composite Cylinder, ES Materials and Manufacturing, 24, 1161, 1-11, 2024, https://dx.doi.org/10.30919/esmm1161
  3650. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3651. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3652. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3653. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3654. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3655. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3656. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3657. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3658. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3659. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3660. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3661. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3662. Pradhan, S., Das, S. R., Jena, P. C., & Dhupal, D. (2022). Investigations on surface integrity in hard turning of functionally graded specimen under nano fluid assisted minimum quantity lubrication. Advances in Materials and Processing Technologies, 8(sup3), 1714-1729.
  3663. Elsheikh, A. H., Abd Elaziz, M., Das, S. R., Muthuramalingam, T., & Lu, S. (2021). A new optimized predictive model based on political optimizer for eco-friendly MQL-turning of AISI 4340 alloy with nano-lubricants. Journal of Manufacturing Processes, 67, 562-578.
  3664. Pradhan S, Tripathy SS & Dhupal D ; (2021)“Machining of aluminium nitride ceramic using developed hot abrasive jet machining: an experimental and simulation approach ”Advances in Materials and Processing Technologies.1-15,https://doi.org/10.1080/2374068X.2021.1945275.
  3665. Pankaj Kumar Swain, Arun Kumar Rout, Jitesh Kumar Singh, Dibakar Sahoo, Srimant Kumar Mishra, Development and analysis of Fe-doped ZnO nanoparticle-infused sisal fiber reinforced hybrid polymer composites for high-performance sound absorption and thermal insulation applications, Industrial Crops and Products, 222, 119763, 2024.
  3666. Jitesh Kumar Singh, Arun Kumar Rout , Experimental investigation on tribo-performance of rice husk nanoparticles blend epoxy composites reinforced by Borassus flabellifer L. fibre using neural network approach, Materials Today Communications, 38, 107971, 2024.
  3667. Rout S, Panigrahi D, Patel SK & Dhupal D ;(2021) “Microchanneling on bio-inert dental ceramic using dry pulsed laser ablation and liquid supported pulsed laser ablation approach” Optics and Lasers in Engineering 144, 106654 https://doi.org/10.1016/j.optlaseng.2021.106654.
  3668. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3669. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3670. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3671. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3672. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3673. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3674. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3675. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3676. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3677. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3678. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3679. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3680. Sarada Prasad Parida, Saritprava Sahoo, Pankaj Charan Jena, Prediction of multiple transverse cracks in a composite beam using hybrid RNN-mPSO technique, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2024, https://doi.org/DOI: 10.1177/09544062241239415
  3681. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3682. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3683. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3684. Naik, S., Das, S. R., & Dhupal, D. (2021). Experimental investigation, predictive modeling, parametric optimization and cost analysis in electrical discharge machining of Al-SiC metal matrix composite. Silicon, 13, 1017-1040.
  3685. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3686. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3687. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3688. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3689. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3690. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3691. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3692. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3693. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3694. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3695. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3696. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3697. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3698. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3699. Saritprava Sahoo,Sarada Prasad Parida, Pankaj Charan Jena, Dynamic response of a laminated hybrid composite cantilever beam with multiple cracks & moving mass, Structural Engineering and Mechanics,87(6),529-540, 2023,https://doi.org/10.12989/sem.2023.87.6.529 SCOPUS SCI-IF: 2.2
  3700. Pattnaik, S.K., Mishra, D., Panda, S. (2021), A comparative study of meta-heuristics for local path planning of a mobile robot, Engineering Optimization.
  3701. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3702. Behera, R. K., Samal, B. P., Panigrahi, S. C., & Das, S. R. (2021). Optimization of erosion wears of Al–Mg–Si–Cu–SiC composite produced by the PM method. Corrosion Reviews, 39(1), 63-75.
  3703. Dixit S, Panigrahi D, Rout S, Panda S & Dhupal D ; (2021)“A Tribological Parametric Analysis of Laser Textured Microgrooves on Si3N4” Lasers in Engineering (Old City Publishing).
  3704. Jayasmita Das, Arun Kumar Rout , Soumya Ranjan Parimanik, Itishree Rout, Trupti Ranjan Mahapatra, Debadutta Mishra, Dynamic Mechanical, and Static analysis of kevlar fiber reinforced epoxy composites incorporated with egg shell particle, 32(1), 2024.
  3705. Naik S, Das SR & Dhupal D ;(2021)“Experimental Investigation, Predictive Modeling, Parametric Optimization and Cost Analysis in Electrical Discharge Machining of Al-SiC Metal Matrix Composite”Silicon.13, 1017-1040.
  3706. Lipsamayee Mishra, Trupti Ranjan Mahapatra, Debadutta Mishra, Soumya Ranjan Parimanik, Arun Kumar Rout , Parametric optimization of hole quality in Nd: YAG laser drilled carbon black/epoxy composite by grey based whale optimization technique, Materials Today: Proceedings, 2024.
  3707. Panda, S., Mishra, D., Biswal, B.B. (2020), An approach for design optimization of 3R manipulator using Adaptive Cuckoo Search algorithm, Mechanics Based Design of Structures and Machines, 48(6), pp. 773–798.
  3708. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3709. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3710. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3711. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3712. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3713. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3714. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3715. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3716. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3717. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3718. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3719. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3720. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3721. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3722. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3723. Debabrata Dhupal, Debasish Panigrahi, Sweta Rout, Rajesh Kumar Bhuyan, Soumyaranjan Nayak, Pankaj Charan Jena, and Sudhansu Ranjan Das, Generation of Effusion Holes on Ultra-high Temperature Alloy by Micro Electro-discharge Machining Process, Surface Review and Letters, 2023, https://doi.org/10.1142/S0218625X2450015X , SCOPUS SCI-IF: 1.1
  3724. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2021). Machining of hardstone quartz with modified AJM process using hot SiC abrasives: analysis, modeling, optimization, and cost analysis. Surface Review and Letters, 28(02), 2050049.
  3725. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3726. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3727. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3728. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3729. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3730. Pattanaik, A.K., Pal, K., Mishra, D. (2020), Tribiological investigation and optimization of friction stir spot welding of dissimilar metals by LSSM-ANN method, Mechanics Based Design of Structures and Machines.
  3731. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3732. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3733. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3734. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3735. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3736. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3737. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3738. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3739. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3740. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3741. Padhan, S., Das, A., Santoshwar, A., Dharmendrabhai, T. R., & Das, S. R. (2021). Sustainability assessment and machinability investigation of austenitic stainless steel in finish turning with advanced ultra-hard SiAlON ceramic tool under different cutting environments. Silicon, 13, 119-147.
  3742. Saritprava Sahoo, Pankaj Charan Jena, Effect of lamina orientation, crack severity, and fillers on dynamic parameters of hybrid composite cantilever beam with double transverse cracks, Materialwissenschaft und Werkstofftechnik,Vol.54(4), Pages: 737-750, DOI: 10.1002/mawe.202200205, SCOPUS, SCI-IF: 1.034
  3743. Pradhan S, Das SR, Jena PC & Dhupal D ;(2021)“Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach” Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 09544062211010199.
  3744. Binita Dash, Trupti Ranjan Mahapatra, Debadutta Mishra, Arun Kumar Rout , Acoustic radiation efficiencies of laminated composite structure under mechanical excitation and hygrothermal loading: Numerical analysis, Materials Today: Proceedings, 91, 25-32, 2023.
  3745. Panigrahi D, Rout S, Patel SK & Dhupal D (2021)Stray current and its consequences on microstructure of Hastelloy C-276 during parametric investigation on geometrical features: fabricated by electrochemical micromachining. The International Journal of Advanced Manufacturing Technology.112 (1), 133-156.
  3746. Jitesh Kumar Singh, Arun Kumar Rout , Thermal stability and dynamic mechanical analysis of nano-biofillers blended hybrid composites reinforced by cellulosic Borassus flabellifer L. fiber, International Journal of Polymer Analysis and Characterization, 28(6), 552-563, 2023.
  3747. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3748. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3749. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3750. Panda, S., Mishra, D., and Biswal, B.B., (2018), Optimum design of 3R manipulator usinghybrid PSOGSA algorithm, International Journal of Mechanism and Robotic Systems,Inderscience.
  3751. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3752. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3753. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3754. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3755. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3756. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3757. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3758. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3759. Pradhan, S., Sahu, S., Das, S. R., & Dhupal, D. (2021). Experimental study and simulation of surface generation during machining of K-80 alumina ceramic in modified abrasive jet machining with different temperatures using Al2O3 abrasives. International Journal of Abrasive Technology, 10(4), 298-329.
  3760. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3761. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3762. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3763. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, 2022,https://doi.org/10.1177/10775463221138353, SCOPUS, SCI-IF: 2.8
  3764. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3765. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3766. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3767. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3768. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3769. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3770. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3771. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, Vol. December 2022,pp. 815-823 DOI: 10.56042/ijems.v29i6.70296 SCOPUS, SCI-IF: 0.615
  3772. Panda, S, and Mishra, D., (2018), Process Parameter Optimization of Hydrostatic ExtrusionUsing Metaheuristic, Journal of Advanced Manufacturing Systems, World Scientific 17(4), pp.1–18. DOI: 10.1142/S0219686718500270.
  3773. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3774. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3775. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3776. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3777. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3778. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3779. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3780. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3781. Pradhan, S., Dhupal, D., Das, S. R., & Jena, P. C. (2021). Experimental investigation and optimization on machined surface of Si3N4 ceramic using hot SiC abrasive in HAJM. Materials Today: Proceedings, 44, 1877-1887.
  3782. Jitesh Kumar Singh, Arun Kumar Rout , Study on the physical, mechanical, and thermal behaviour of RHN blend epoxy hybrid composites reinforced by Borassus flabellifer L. fibers, Cellulose, 30(8), 5033-5049, 2023
  3783. Pradhan S, Das SR, Nanda BK, Jena PC & Dhupal D (2021)Machining of Hardstone Quartz with Modified Ajm Process Using Hot SiC Abrasives: Analysis, Modeling, Optimization, and Cost Analysis. Surface Review and Letters (SRL) 28 (02), 1-21.
  3784. Soumya Ranjan Parimanik, Trupti Ranjan Mahapatra, Debadutta Mishra, Arun Kumar Rout , Optimisation of performance characteristics in laser welding of Nitinol wires using Taguchi and grey relation analysis, Advances in Materials and Processing Technologies, 9(1), 186-195, 2023.
  3785. Pradhan S, Das SR, Nanda BK, Jena PC & Dhupal D (2020)Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering42, 559. https://doi.org/10.1007/s40430-020-02644-4.
  3786. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3787. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3788. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3789. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3790. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3791. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3792. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3793. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3794. Sarada Prasad Parida, Pankaj Charan Jena, Multi-fillers GFRP laminated composite plates: Fabrication & Properties, Indian Journal of Engineering and Materials Sciences, in Press, December 2022, SCOPUS, SCI-IF: 0.88
  3795. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3796. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3797. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3798. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3799. Pattanaik, A.K., Panda, S.N., Mishra, B.P., Pal, K., and Mishra, D. (2017), A ComparativeInvestigation to Process Parameter Optimization for Spot Welding Using Taguchi Based GreyRelational Analysis and Metaheuristics, Technology Spectrum Review, 2(1), pp. 1-5.
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  3801. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3802. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3803. Padhan, S., Dash, L., Behera, S. K., & Das, S. R. (2020). Modeling and optimization of power consumption for economic analysis, energy-saving carbon footprint analysis, and sustainability assessment in finish hard turning under graphene nanoparticle–assisted minimum quantity lubrication. Process Integration and Optimization for Sustainability, 4, 445-463.
  3804. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3805. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3806. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  3807. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  3808. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  3809. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
  3810. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3811. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
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  3813. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
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  3815. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3816. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3817. Sarada Prasad Parida, Pankaj Charan Jena, Dynamics of laminated-composite-plates with selective layer-wise fillering rested on elastic foundation using higher-order layer-wise theory Journal of Vibration and Control, Journal of Vibration and Control, 2022, DOI: 10.1177/10775463221138353, SCOPUS, SCI-IF: 3.095
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  3819. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
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  3821. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2020). Performance evaluation of aluminium oxide nano particles in cutting fluid with minimum quantity lubrication technique in turning of hardened AISI 4340 alloy steel. Scientia Iranica, 27(6), 2838-2852.
  3822. Trilokinath Mishra, Paulami Mandal, Arun Kumar Rout , Dibakar Sahoo, A state-of-the-art review on potential applications of natural fiber-reinforced polymer composite filled with inorganic nanoparticle, Composites Part C, 9, 100298, 2022.
  3823. Pradhan S, Das SR & Dhupal D (2020) Performance evaluation of recently developed new process HAJM during machining hardstone quartz using hot silicon carbide abrasives: an experimental investigation and sustainability assessment. Silicon,1-25.
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  3828. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
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  3830. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3831. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3832. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3833. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3834. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3835. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3836. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3837. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  3838. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  3839. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  3840. Panda, S., and Mishra, D., B.B.Biswal, Choudhury, B.B. (2009), An Appropriate Formulationfor Workspace Cross Section Area of 3R Robot Manipulator, Industrial and InformationSystems (ICIIS), IEEE XPlore, pp. 511 - 515.
  3841. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3842. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3843. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  3844. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit, A Review on Various Techniques and Methodologies Applied to the Study on Faults Detection of Cracked Composite and Non-composite Beam, International Journal of Artificial Intelligence and Computational Research, 6 .1, 69-75, 2014.
  3845. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3846. Das, S. R., Dhupal, D., & Kumar, A. (2015). Study of surface roughness and flank wear in hard turning of AISI 4140 steel with coated ceramic inserts. Journal of Mechanical Science and Technology, 29, 4329-4340.
  3847. Panda, S., Panda, S.N., Nanda, P., and Mishra, D., (2015), Comparative Study on OptimumDesign of Rolling Element Bearing, Tribology International, Elsevier, 92, pp. 595-604.https://doi.org/10.1016/j.triboint.2015.07.034.
  3848. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3849. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3850. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3851. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3852. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3853. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3854. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3855. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3856. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3857. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3858. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3859. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3860. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3861. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3862. Sitesh Mahapatra, Anshuman Das, Pankaj Charan Jena and Sudhansu Ranjan Das, Turning of hardened AISI H13 steel with recently developed S3P-AlTiSiN coated carbide tool using MWCNT mixed nanofluid under minimum quantity lubrication Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177/09544062221126357 SCOPUS, SCI-IF: 1.762
  3863. Pradhan, S., Das, S. R., Nanda, B. K., Jena, P. C., & Dhupal, D. (2020). Experimental investigation on machining of hardstone quartz with modified AJM using hot silicon carbide abrasives. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42, 1-22.
  3864. Jitesh Kumar Singh, Arun Kumar Rout , Characterization of raw and alkali-treated cellulosic fibers extracted from borassus flabellifer L., Biomass Conversion and Biorefinery, 14, 11633–11646, 2022.
  3865. Pattanayak S, Panda S & Dhupal D (2020)Laser micro drilling of 316L stainless steel orthopedic implant: A study. Journal of Manufacturing Processes 52, 220-234.
  3866. Naik S, Das SR & Dhupal D (2020)Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review 7, 1-20.
  3867. Jitesh kumar Singh, Arun Kumar Rout, Kanchan Kumari, A review on Borassus flabellifer lignocellulose fiber reinforced polymer composites, Carbohydrate Polymers, 262, 117929, 2021.
  3868. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3869. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3870. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3871. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3872. Mishra, D. Panda, S., and Biswal, B.B., (2015), Optimization of Multiple ResponseCharacteristics of EDM Process Using Taguchi-Based Grey Relational Analysis and ModifiedPSO, Journal of Advanced Manufacturing Systems, World Scientific, 14(3), pp. 123-148.https://doi.org/10.1142/S0219686715500092.
  3873. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3874. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3875. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3876. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3877. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3878. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3879. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3880. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3881. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3882. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3883. Sarada Prasad Parida, Pankaj Charan Jena, Selective layer-by-layer fillering and its effect on the dynamic response of laminated composite plates using higher-order theory, Journal of Vibration and Control, 2022. https://doi.org/10.1177%2F10775463221081180, SCOPUS, SCI-IF: 3.095
  3884. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3885. Dash, L., Padhan, S., & Das, S. R. (2020). Experimental investigations on surface integrity and chip morphology in hard tuning of AISI D3 steel under sustainable nanofluid-based minimum quantity lubrication. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(10), 500.
  3886. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3887. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3888. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3889. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3890. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3891. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3892. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3893. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3894. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3895. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3896. Panda, S., Mishra, D., Biswal, B. B., and Tripathy, M., (2014), Revolute ManipulatorWorkspace Optimization using a Modified Bacteria Foraging Algorithm: A ComparativeStudy, Engineering Optimization, Taylor & Francis, 46(2), pp. 181-199.DOI:10.1080/0305215X.2012.753439.
  3897. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3898. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3899. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3900. Sarada Prasad Parida, Pankaj Charan Jena, Free and forced vibration analysis of flyash/graphene filled laminated composite plates using higher order shear deformation theory, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science, 2022, https://doi.org/10.1177%2F09544062211053181 SCOPUS, SCI-IF: 1.762
  3901. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3902. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3903. Das, A., Das, S. R., Patel, S. K., & Biswal, B. B. (2020). Effect of MQL and nanofluid on the machinability aspects of hardened alloy steel. Machining Science and Technology, 24(2), 291-320.
  3904. Panda A, Das SR & Dhupal D (2020)Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures 34 (5), 681-698.
  3905. Jnanaranjan Kar, Arun Kumar Rout, Alekha Kumar Sutar, Tanmay Mohanty, Study on static and dynamic mechanical properties of hybrid palm stalk fiber reinforced epoxy composites”, BioResources, 15(2), 4249-4270, 2020.
  3906. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo, “ A comparative analysis of the abrasion wear characteristics of industrial wastes filled glass/polyester composites based on design of experiment and artificial neural network”, Polymer Composites, DOI: 10.1002/pc.25836, 2020.
  3907. Rout B, Dash RR & DhupalD (2020)Posture prediction and optimization for a manual assembly operation involving lifting of weights. International Journal for Simulation and Multidisciplinary Design Optimization 11.
  3908. Rath, D., Panda, S., Mishra, A. and Pal, K. “Particle swarm optimization and machinability aspects during turning of hardened D3 steel.” Journal of Advanced Manufacturing Systems,Vol. 19, No. 04, pp. 641-662, 2020 SCOPUS.
  3909. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3910. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3911. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3912. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3913. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3914. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3915. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3916. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3917. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3918. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3919. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3920. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3921. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3922. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3923. Saritprava Sahoo, Pankaj Charan Jena, Preparation and Characterization of Hybrid Laminated Composite Beams, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1953924 SCOPUS, ESCI.
  3924. Panda, S., Mishra, D., and Biswal, B. B., (2013), Revolute manipulator workspaceoptimization: A comparative study, Applied Soft Computing, Elsevier, Vol. 13, pp. 899-910.
  3925. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3926. Panda, A., Das, S. R., & Dhupal, D. (2020). Machinability investigation and sustainability assessment in FDHT with coated ceramic tool. Steel and Composite Structures, An International Journal, 34(5), 681-698.
  3927. Satapathy, A., Pradhan, M.K., Mishra, D., and Patnaik, A., (2012), Fabrication, MechanicalCharacterization and FTIR Spectroscopic Analysis of Fish Scale Reinforced Epoxy Composites,Advanced Materials Research, Trans Tech, Vol. 445, pp. 889-892.
  3928. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3929. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3930. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3931. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3932. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3933. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3934. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3935. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3936. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3937. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3938. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3939. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3940. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3941. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3942. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, An Int'l Journal, 76(5), 561-578.
  3943. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3944. Amalana Panda, Ashok Kumar Sahoo, Isham Panigrahi, Arun Kumar Rout, “Prediction models for on-line cutting tool and machined surface condition monitoring during hard turning considering vibration signal”, Mechanics & Industry, 21, 520, 2020.
  3945. Sarada Prasad Parida, Pankaj Charan Jena, Comparative Stress analysis of different suitable Biomaterials for Artificial Hip Joint and Femur Bone using Finite Element Simulation, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1949541 SCOPUS, ESCI.
  3946. Rout B, Tripathy PP, Dash RR & Dhupal D ;(2020)“Optimization of posture prediction using MOO in brick stacking operation. Computational Intelligence in Data Mining, 461-472.
  3947. Pal, K., and Pal, S. K., “Multi-objective optimization of pulsed gas metal arc welding process using neuro NSGA-II” Journal of The Institution of Engineers (India): Series C, Vol 100, pp. 501–510 2019 SCOPUS.
  3948. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo, “Effect of marble paticle on physic-mechanical behavior of glass fiber reinforced epoxy composites”, Int. J. of Integrated Engineering, 11(06), 93-102, 2019.
  3949. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3950. Panda A, Das SR & Dhupal D ;(2019)“Machinability investigation of HSLA steel in hard turning with coated ceramic tool: assessment, modeling, optimization and economic aspects”Journal of Advanced Manufacturing Systems 18 (04), 625-655.
  3951. Priyadarshini, M and Pal, K, “A comparative study for machining of Ti-6Al-4V alloy for multi-criteria response”, Journal of Advanced Manufacturing Systems, Vol. 17(4), pp-515-531, 2018 SCOPUS.
  3952. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3953. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3954. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3955. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3956. Patel, B.C., Acharya, S.K., and Mishra, D., (2012), Environment effect of water absorption andflexural strength of red mud filled jute fibre/polymer composite, International Journal ofEngineering, Science and Technology, Vol. 4, No. 4, pp. 49-59.
  3957. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3958. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3959. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3960. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3961. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3962. Subhadip Pradhan, Sudhansu Ranjan Das, Pankaj Charan Jena, Debabrata Dhupal Investigations on Surface Integrity in Hard Turning of Functionally Graded Specimen under Nano Fluid Assisted Minimum Quantity Lubrication, Advances in Materials and Processing Technologies, 2021, DOI:10.1080/2374068X.2021.1948706 SCOPUS, ESCI.
  3963. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3964. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3965. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3966. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3967. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3968. Behera, R. K., & Das, S. R. (2019). Modelling and optimization of technological parameters in hot abrasive jet machining of alumina ceramic. Matériaux & Techniques, 107(6), 603.
  3969. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3970. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3971. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3972. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3973. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3974. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3975. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3976. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3977. Panda, S., Mishra, D., Biswal, B.B., and Choudhury, B.B., (2012), Robot WorkspaceOptimization using a Novel Modified Differential Evolutionary Technique, InternationalJournal of Computational Methods, World Scientific, Vol. 9, No. 3, pp. 1250034-1-21.
  3978. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3979. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3980. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3981. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3982. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3983. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3984. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3985. Naik, S., Das, S. R., & Dhupal, D. (2020). Analysis, predictive modelling and multi-response optimization in electrical discharge machining of Al-22% SiC metal matrix composite for minimization of surface roughness and hole overcut. Manufacturing Review, 7, 20.
  3986. Priyadarshini, M and Pal, K, “Multi-objective optimisation of EDM process using hybrid Taguchi-based methodologies for Ti-6Al-4V alloy”, International Journal of Manufacturing Research, Inderscience Publications, 2016, Vol. 11 (2), pp.144-166 SCOPUS.
  3987. Subhrajit Ray, Arun Kumar Rout, Ashok Kumar Sahoo , “Tribomechanical performance of glass–epoxy hybrid composites filled with marble powder with the taguchi design and artificial neural network”, Composites: mechanics, computations, applications,10(1),17-38, 2019.
  3988. Saurav Kumar Bhatt, Pankaj Charan Jena, Anish Pandey, Dayal R. Parhi, Design and Analysis of a Novel Concept-Based Six-Wheels Rocker-Bogie Robot, Journal of Huazhong University of Science and Technology, Vol.50(4), 1-20, 2021 SCOPUS
  3989. Dixit SR, Das SR & Dhupal D (2019)“Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach”Journal of Industrial Engineering International 15 (2), 333-349.
  3990. Pal, K, and Pal, S K., “Sensor based prediction of weld microstructure in pulsed MIG welding” International Journal of Microstructure and Materials Properties, Inderscience Publications, 2015 Vol 10(5-6), pp.402- 434, SCOPUS.
  3991. Arun Kumar Rout, Jitesh Kumar Singh, An overview of advanced fiber reinforced polymer composites and it’s applications, International Journal of Mechanical and Production Engineering Research and Development (IJMPERD), 8, 311-318, 2018.
  3992. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  3993. Rout B, Dash RR & Dhupal D ;(2019)“Optimal posture prediction in brick stacking operation for reducing ergonomic risk factor” Int. J. Recent Technol. Eng., 1835-1841.
  3994. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  3995. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  3996. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
  3997. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  3998. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  3999. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  4000. Pradhan, S., Das, S.R., Jena, P.C., Dhupal, D., Machining performance evaluation under recently developed sustainable HAJM process of zirconia ceramic using hot SiC abrasives: An experimental and simulation approach, Proceedings of Institute Mechanical Engineering Part C: J Mechanical Engineering Science 0(0) 1–27, 2021, DOI: 10.1177/09544062211010199 SCOPUS, SCI-IF: 1.762.
  4001. Pradhan, S., Tripathy, S. S., Sahu, S., Das, S. R., Jena, P. C., & Dhupal, D. (2020). Investigation on MRR and DOC of the micro-holes generated on quartz using silicon carbide by FB-HAJM. Materials Today: Proceedings, 26, 2005-2012.
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  4107. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4108. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4109. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4110. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4111. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4112. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4113. Das, A., Patel, S. K., Biswal, B. B., & Das, S. R. (2019). Machinability investigation and cost estimation during finish dry hard turning of AISI 4340 steel with untreated and cryo treated cermet inserts. Journal of Superhard Materials, 41, 247-264.
  4114. Jesthi,D.K., Mandal, P., Rout A.K., Nayak,R.K., “Effect of carbon/glass fiber symmetric inter-ply sequence on mechanical properties of polymer matrix composites”,Procedia manufacturing, 20, 530-535, 2018.
  4115. Sarmila Singh, Sarada Prasad Parida, Premananda Ekka, Pankaj Charan Jena*, “Characterization of Fabricated FG Pipe with Natural Fiber-Flyash-Epoxy using Centrifugal Casting”, International Journal of Innovative Technology and Exploring Engineering, Volume-8(11), PP., 2019, DOI: 10.35940/ijitee.J9831.0881019, SCOPUS.
  4116. Sahu SK, Naik S, Das SR & Dhupal D ;(2019)“Parametric optimization of surface roughness and overcut in electric discharge machining of Al-SiC using copper electrode”Renewable Energy and its Innovative Technologies, 99-116.
  4117. Sahu S K., Mishra D., and Pal K. “Optimizing process parameters for joint strength efficiency improvement in friction stir welding of polycarbonate sheets”, Material Science and Engineering Technology. Vol. 52, pp. 739–761, 2021 SCI/SCOPUS.
  4118. Barik T. and Pal K. “Prediction of drilled hole quality in bidirectional woven carbon fiber reinforced plastic using wavelet packets of force–torque signals”, Journal of Reinforced Plastics and Composites,doi.org/10.1177/07316844211011757, 2021 SCI/SCOPUS.
  4119. Jesthi,D.K., Mandal, P., Rout A.K., Nayak,R.K., “Enhancement of mechanical and specific wear properties of glass/carbon fiber reinforced polymer hybrid composite”, Procedia manufacturing, 20, 536-541, 2018.
  4120. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4121. Panda A, Das SR & Dhupal D ;(2018)“Hard Turning of HSLA Steel with Coated Ceramic InsertsAn Assessment, Modelling, Optimisation and Cost Analysis”International Journal of Automotive & Mechanical Engineering 15 (4).
  4122. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4123. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4124. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4125. Biswal, B.B., Choudhury, B.B., Mishra, D., Dash, P., (2010), An overview and comparison offour sequence generating methods for robotic assembly. International Journal ofManufacturing Technology and Management, Inderscience, Vol. 20, No.1/2/3/4, pp. 169–196.
  4126. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4127. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4128. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4129. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4130. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4131. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Dynamic Investigation of FRP Cracked Beam Using Neural Network Technique”, Journal of Vibration Engineering & Technologies ,ISSN-2321-3558, Volume 7, 2019; 7: 647–661. DOI: 10.1007/s42417-019-00158-5. SCIE-IF: 1.889.
  4132. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4133. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4134. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4135. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4136. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4137. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4138. Dixit, S. R., Das, S. R., & Dhupal, D. (2019). Parametric optimization of Nd: YAG laser microgrooving on aluminum oxide using integrated RSM-ANN-GA approach. Journal of Industrial Engineering International, 15, 333-349.
  4139. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4140. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4141. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4142. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4143. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4144. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4145. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4146. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4147. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4148. Panda, S., and Mishra, D., (2010), Development of a tribological failure knowledge model,International Journal of Knowledge Engineering & Data Mining, Inderscience, Vol.1, No. 2,pp. 99-114.
  4149. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4150. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4151. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4152. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4153. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4154. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4155. Das, A., Tirkey, N., Patel, S. K., Das, S. R., & Biswal, B. B. (2019). A comparison of machinability in hard turning of EN-24 alloy steel under mist cooled and dry cutting environments with a coated cermet tool. Journal of Failure Analysis and Prevention, 19, 115-130.
  4156. Sahu S. K., Mishra D., and Pal K. “Investigation on Mechanical Behavior of Friction Stir Welded Nylon-6 using Temperature Signatures” Journal of Materials Engineering and performance, Springer publications, Vol. 29, pp. 5238–5262, 2020SCI/SCOPUS.
  4157. Arun kumar Rout, Manoj kumar, Banabihari Nayak, “Tribo-mechanical performance of silicon carbide-reinforced aa6061 metal matrix composites using the taguchi methodology”, Composites: Mechanics”, Computations, Applications: An International Journal, 8(1),67-83, 2017.
  4158. Sarada Prasad Parida, Pankaj Charan Jena, “Design and Finite Element analysis of Thick walled Laminated Composite Pressure Vessel”, International Journal of Innovative Technology and Exploring Engineering, Volume-8 (10), PP.4389-4394, 2019, DOI: 10.35940/ijitee.J9831.0881019, ISSN: 2278-3075. SCOPUS.
  4159. Panda A, Das SR, Dhupal D & Davim JP;(2018)“Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis”Journal of Manufacturing Technology Research 10 (3/4), 113-141.
  4160. Panda A, Das SR & Dhupal D ;(2018)“Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340)”Matériaux & Techniques 106 (4), 404.
  4161. Sahu S. K., Mishra D., Pal K. and Pal S. K. “Multi Sensor based strategies for accurate monitoring of friction stir welding of polycarbonate sheets” ProcIMechE Part C: J Mechanical Engineering Science, Sage publications.doi.org/10.1177/0954406220960772, 2020 SCI/SCOPUS.
  4162. AmlanaPanda, Ashok KumarSahoo, Arun Kumar Rout, “Investigations on surface quality characteristics with multi-response parametric optimization and correlations”,Alexandria engineering Journal, Elsevier, 55, 1625-1663, 2016.
  4163. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4164. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4165. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4166. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4167. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4168. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4169. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4170. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4171. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4172. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4173. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4174. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4175. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4176. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4177. Sarada P. Parida, Pankaj Charan Jena, R. R. Dash,, “Dynamic analysis of laminated composite beam using Timoshenko beam Theory”,International Journal of Engineering and Advanced Technology, Volume-8 Issue-6, PP.190-196, 2019, ISSN: 2249 – 8958., DOI: 10.35940/ijeat.E7159.088619. SCOPUS.
  4178. Biswal, B.B., Panda, S. and Mishra, D., (2010), Optimization for Workspace Volume of 3RRobot Manipulator Using Modified Differential Evolution, Swarm, Evolutionary, andMemetic Computing, LNCS, Springer-Verlag, Vol. 6466, pp. 111-118.
  4179. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4180. Das, A., Patel, S. K., & Das, S. R. (2019). Performance comparison of vegetable oil based nanofluids towards machinability improvement in hard turning of HSLA steel using minimum quantity lubrication. Mechanics & Industry, 20(5), 506.
  4181. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4182. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4183. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4184. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4185. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4186. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4187. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4188. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4189. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4190. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4191. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4192. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4193. Mohanty, R.P., Mishra, D. and Mishra, T., (2010), Production as a service: An analysis ofTheory of Constraints (TOC) methods, Journal of Studies on Manufacturing, HyperSciences,Vol.1, No. 2-3, pp. 108-119.
  4194. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4195. Anand, A., Behera, A. K., & Das, S. R. (2019). An overview on economic machining of hardened steels by hard turning and its process variables. Manufacturing Review, 6, 4.
  4196. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4197. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4198. Panda A, Das SR & Dhupal D ; (2017)“Surface roughness analysis for economical feasibility study of coated ceramic tool in hard turning operation” Process Integration and Optimization for Sustainability 1 (4), 237-249.
  4199. Pattanaik Ajit K., Pal K, and Mishra Debadutta, “Tribiological investigation and optimization of friction stir spot welding of dissimilar metals by LSSM-ANN method” Mechanics Based Design Of Structures And Machines, doi.org/10.1080/15397734.2020.1759429, 2020 SCI/SCOPUS.
  4200. Amlana Panda, Ashok Kumar Sahoo, Arun Kumar Rout, “Multi-attribute decision making parametric optimization and modeling in hard turning using ceramic insert through grey relational analysis: A case study,” Decision Science Letters, 5, 581-592, 2016
  4201. Sarada Prasad Parida, Saritprava Sahoo, Basna Bidisha Bal, Pankaj Charan Jena, “Buckling analysis of Functionally Graded Natural Fiber-Flyash-Epoxy (FGNFFE) Cylinder”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958,Volume-8 (6), PP.4260-4265, 2019, DOI: 10.35940/ijeat.F9118.088619. SCOPUS.
  4202. Arun kumar Rout, Jnanaranjan Kar, Dipak Kumar Jesthi and Alekh Kumar Sutar, “Effect of surface treatment on the physical, chemical and mechanical properties of palm tree leaf stalk fibers.”Bio resources, 11(2), 4432-4445, 2016.
  4203. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4204. Das SR, Panda A & Dhupal D ;(2017)“Experimental investigation of surface roughness, flank wear, chip morphology and cost estimation during machining of hardened AISI 4340 steel with coated carbide insert” Mechanics of Advanced Materials and Modern Processes 3 (1), 1-14.
  4205. Barik T., Pal K.,Parimita S, Sahoo P. and Patra K.“Monitoring of hole surface integrity in drilling of bi-directional woven CFRP composites”, ProcIMechE Part C: J Mechanical Engineering Science, Sage publications, DOI: 10.1177/0954406220906292, 2020 SCI/SCOPUS.
  4206. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4207. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4208. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4209. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4210. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4211. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4212. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4213. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4214. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4215. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4216. Pranav Kumar Saraswat, SaritpravaSahoo, Sarada Prasad Parida, Pankaj Charan Jena, “Fabrication, Characterization and Drilling Operation of Natural Fiber Reinforced Hybrid Composite With Filler (Fly-Ash/Graphene)”, International Journal of Innovative Technology and Exploring Engineering, ISSN: 2278-3075, Volume-8 (10), PP.1653-1659, 2019, DOI: 10.35940/ijitee.J1253.0881019, SCOPUS.
  4217. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4218. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4219. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4220. Panda, A., Das, S. R., Dhupal, D., & Davim, J. P. (2018). Hard turning of HSLA steel with coated ceramic tool based on evaluation of surface roughness, tool wear, chip morphology and economic analysis. Journal of Manufacturing Technology Research, 10(3/4), 113-141.
  4221. Sahu, S.P., Satapathy, A., Mishra, D., Patnaik, A., and Sreekumar, K.P., (2010), Triboperformanceanalysis of fly ash–aluminum coatings using experimental design and ANN,Tribology Transactions, Taylor and Francis, Vol. 53, No. 4, pp. 533-542.
  4222. Mohanty, R.P., Mishra, D. and Mishra, T., (2009), Comparative study of productionoutsourcing models, Journal of Advances in Management Research, Emerald, Vol. 6, No. 1,pp. 41-69.
  4223. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4224. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4225. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4226. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4227. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4228. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4229. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4230. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4231. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4232. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4233. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4234. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4235. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4236. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4237. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4238. Das, S. R., Panda, A., & Dhupal, D. (2018). Hard turning of AISI 4340 steel using coated carbide insert: Surface roughness, tool wear, chip morphology and cost estimation. Materials Today: Proceedings, 5(2), 6560-6569.
  4239. Arun Kumar Rout ,Alok Satapathy, “Study on mechanical and erosion wear performance of granite filled glass-epoxy hybrid composites Proc IMechE Part L”,Journal of Materials Design and Applications, 229(1), 38 – 50 ,2015.
  4240. Pankaj Charan Jena, “Mechanical Properties of Fabricated CFRP with Filler”, International Journal of Engineering and Advanced Technology ISSN: 2249–8958, Volume-8 (6), PP.1886-1892, 2019, DOI: 10.35940/ijeat.E7166.088619. SCOPUS.
  4241. Nanda BK, Mishra A & Dhupal D ; (2017)“Fluidized bed abrasive jet machining (FB-AJM) of K-99 alumina ceramic using SiC abrasives”The International Journal of Advanced Manufacturing Technology 90 (9), 3655-3672.
  4242. Rath, D., Panda, S. and Pal, K. “Dry turning of AISI D3 steel using a mixed ceramic insert: A study.” ProcIMechE Part C: J Mechanical Engineering Science. Vol. 233(19–20), pp. 6698–6712 2019 SCI/SCOPUS.
  4243. Sucharita S Sahoo , Arun Kumar Rout, “Prediction of erosion wear of granite filled jute epoxy composites using artificial neural network”, Composites: Mechanics, Computations, Applications, An International Journal ,6(3) ,1-13 ,2015.
  4244. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4245. Nanda BK & Dhupal D ; (2017) “Effect of Machining Parameters in Drilling of Glass Fiber Reinforced Polymer Composite with Modified AJM Process” International Journal of Manufacturing Technology and Management. (In presss)
  4246. Sahu S K., Pal K, Mahto R. P., Dash P Monitoring of friction stir welding for dissimilar Al 6063 alloy to polypropylene using sensor signals. Int J Adv Manuf Technol. Springerpublication,vol. 104(1-4), pp. 159-177, 2019 SCI/SCOPUS.
  4247. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4248. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4249. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4250. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4251. Satpathy, A., Sahu, S.P., and Mishra, D., (2009), Development of protective coating using flyash premixed with metal powder on aluminium substrates, Waste Management andResearch, Sage, Vol. 1, pp. 01-07.
  4252. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4253. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4254. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4255. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4256. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4257. S. Kayal, RabindraBehera, Pankaj Charan Jena, “Solidifying behavior and Characterization of Al (LM6) +SICP Metal Matrix Composites”, International Journal of Engineering and Advanced Technology ISSN: 2249 – 8958, Volume-8 (6), PP.2397-2403, 2019.DOI: 10.35940/ijeat.F8527.088619, SCOPUS.
  4258. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4259. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4260. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4261. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4262. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4263. DHUPAL, D., DIXIT, S. R., & DAS, S. R. (2018). Optimization of process parameters in laser microgrooving of alumina ceramic using genetic algorithm. UPB Sci. Bull., 80, 163-178.
  4264. Sahu, S K, Mishra, D, Mahto, R P, Sharma, Vyas M, Pal, K, Banerjee, S, Dash, P and Pal, S K., “Friction Stir Welding of Polypropylene Sheet”, Engineering Science and Technology, an International Journal, Vol 21 (2), pp. 245-254, 2018 SCOPUS.
  4265. A. Praharaj, D. Behera, P. Rath, T.K. Bastia , A.K.Rout , “BisGMA-polyvinylpyrrolidone blend based nanocomposites reinforced with chitosan grafted f-multiwalled carbon nanotubes”, Results in Physics ,5 ,158-167 , 2015
  4266. N. K. Kund (Sole Author) (2018), Effect of tilted plate vibration on solidification and microstructural and mechanical properties of semisolid cast and heat-treated A356 Al alloy, International Journal of Advanced Manufacturing Technology (Springer), Vol. 97, pp. 1617-1626 (Impact Factor: 2.9) (SCI).
  4267. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4268. Das SR, Kumar A & Dhupal D ;(2016)“Experimental investigation on cutting force and surface roughness in machining of hardened AISI 52100 steel using cBN tool”International Journal of Machining and Machinability of Materials 18 (5-6)501-521.
  4269. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4270. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4271. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4272. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4273. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4274. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4275. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4276. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4277. Panda, S., and Mishra, D., (2009), A Multi-Objective Optimum Design of Dynamically LoadedJournal Bearing for a Prescribed À Extent Film, SAE Technical paper Series, SAE International,Document no. 2009-01-1679.
  4278. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4279. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4280. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4281. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4282. Pankaj Charan Jena, Dayal R. Parhi and G. Pohit, “Fault Measurement in Composite Structure by Fuzzy-Neuro Hybrid Technique from the Natural Frequency and Fibre Orientation”, Journal of Vibration Engineering & Technologies, Vol. 5(2), PP.124-36, 2017, DOI: 10.1007/s42417-019-00158-5, SCOPUS, SCIE-IF:1.889
  4283. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4284. Panda, A., Das, S. R., & Dhupal, D. (2018). Experimental investigation, modelling and optimization in hard turning of high strength low alloy steel (AISI 4340). Matériaux & Techniques, 106(4), 404.
  4285. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4286. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4287. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4288. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4289. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4290. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4291. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4292. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4293. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4294. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4295. Anil Swain, Santosh Kumar Sahu , Anisha Ekka and Sudhansu Ranjan Das “Parametric Optimization Of Nd:YAG Laser Microgrooving of Alumina Ceramic Using Integrated RSM-PSO Approach”,Emerging Trends in Mechanical Engineering ,pp.1-10, https://doi.org/10.1007/978-981-32-9931_1
  4296. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4297. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4298. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4299. Choudhury, B.B., Biswal, B.B., Mishra, D., and Mahapatra, R.N., (2009), AppropriateEvolutionary Algorithm for Scheduling in FMS, Proc. of IEEE Computer Society, WorldCongress on Nature & Biologically Inspired Computing, pp.1139-1144.
  4300. Das, S. R., Dhupal, D., & Kumar, A. (2015). Experimental investigation into machinability of hardened AISI 4140 steel using TiN coated ceramic tool. Measurement, 62, 108-126.
  4301. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4302. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4303. Dhupal D , Doloi B & Bhattacharyya B;(2007)“Optimization of process parameters of Nd: YAG laser microgrooving of Al2TiO5 ceramic material by response surface methodology and artificial neural network algorithm” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 221 (8) 1341-1350.
  4304. Arun Kumar Rout & Alok Satapathy , “Study on Mechanical and Tribo-Performance of Rice-husk Filled Glass-Epoxy Hybrid Composites , Materials and Design” , 41 ,131-141, 2012
  4305. S. K. Sahu and N. K. Kund (Sole Co-author) (2023), Influence of slurry delivery rate and height from cooling slope outlet on solidification and structural behaviors of molded AZ91 magnesium alloy, Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C) (Sage), Vol. 237, pp. 1719-1727 (Impact Factor: 1.8) (SCI).
  4306. Dash, L., Padhan, S., & Das, S. R. (2020). Design optimization for analysis of surface integrity and chip morphology in hard turning. Structural Engineering and Mechanics, 76(5), 561–578. https://doi.org/10.12989/SEM.2020.76.5.561
  4307. Sunita Sethy , Jaydev Rana “Improvement of Electro-Discharge machining performance of Ti-6Al-4V using Silicon Carbide powder mixed in EDM oil and optimization of process parameters” 3rd Online International Conference ICRAIMR 2020 organised by Foundation of Innovative Research at Asian Institute of Technology, THAILAND, European journal of Molecular and clinical medicine 2020, Volume 7(issue 11, Page 1643-1655, (online ISSN: 2515-8260)
  4308. Pankaj Charan Jena, Dayal R. Parhi, and G. Pohit,Study about of Faults Detection of a Single Cracked Beam Through Various Techniques, International Journal of Applied Artificial Intelligence in Engineering System, 4.1, 51-58, 2012.
  4309. Pal, K, Bhattacharya, S, and Pal, S. K., “Prediction of metal deposition from arc sound and weld temperature signatures in pulsed MIG welding”. International Journal of Advanced Manufacturing Technology, Springer Verlag, 2009,Vol.45(11-12), pp.1113-1130, SCI/SCOPUS.
  4310. Rout, B., Dash, R., Dhupal, D., & Das, S. R. (2022). Optimized posture prediction for task specific during stacking process using

National Publications

  1. Panda S., Mishra, D., (2010), A Study on Development of Fluid Film Bearings, Journal of Mechanical Engineering, Institution of Engineers, Vol. 90, pp. 3-7.
  2. Satpathy, A., Sahu, S.P., Mishra, D., and Patnaik, A., (2009), Plasma sprayed fly ash coating on metal substrates, Material Science: An Indian Journal, Vol. 5, No. 4, pp. 01-07.
  3. Mishra, D., Mishra, T., and Mohanty, R.P., (2008), An exploratory study of quality management practices and product quality outcome: A case study of Indian manufacturing industry, Quality Management Practices, Excel books, pp. 655-662.
  4. Mishra, D., Biswal, B.B., and Mohanty, R.P., (2007), A comparative study of production outsourcing models with emphasis on theory of constraints based approach, Vilakshan XIMB Journal of Management, Vol. IV, No. 1, pp. 31-60.
  5. Mishra, D., Pattanayak, S.K. and Biswal, B.B., (2004), An improved method for outsourcing with maximum throughput in a manufacturing organization, The ICFAI Journal of Operations Management, Vol. III, No. 4, pp. 39-54.
  6. Sunita Sethy, Jaydev Rana, “Performance analysis of EDM process using multi response optimization techniques”,National Conference on Technological Advancement in Manufacturing & Processing of New Materials(TAMPNM-2016),VSSUT,Burla,Odisha,9th-10th Apr,2016.
  7. NIL
  8. NIL
  9. Kanango, R.N. and Mishra, D., (1992), A study on industrial potential of Western Orissa, Western Orissa an Ethos, Silver Jubilee Journal, SU.
  10. NIL
  11. NIL
  12. NIL
  13. NIL
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  19. NIL
  20. Panda S., Mishra, D., (2010), A Study on Development of Fluid Film Bearings, Journal of Mechanical Engineering, Institution of Engineers, Vol. 90, pp. 3-7.
  21. Satpathy, A., Sahu, S.P., Mishra, D., and Patnaik, A., (2009), Plasma sprayed fly ash coating on metal substrates, Material Science: An Indian Journal, Vol. 5, No. 4, pp. 01-07.
  22. Mishra, D., Mishra, T., and Mohanty, R.P., (2008), An exploratory study of quality management practices and product quality outcome: A case study of Indian manufacturing industry, Quality Management Practices, Excel books, pp. 655-662.
  23. Mishra, D., Biswal, B.B., and Mohanty, R.P., (2007), A comparative study of production outsourcing models with emphasis on theory of constraints based approach, Vilakshan XIMB Journal of Management, Vol. IV, No. 1, pp. 31-60.
  24. Mishra, D., Pattanayak, S.K. and Biswal, B.B., (2004), An improved method for outsourcing with maximum throughput in a manufacturing organization, The ICFAI Journal of Operations Management, Vol. III, No. 4, pp. 39-54.
  25. Sunita Sethy, Jaydev Rana, “Performance analysis of EDM process using multi response optimization techniques”,National Conference on Technological Advancement in Manufacturing & Processing of New Materials(TAMPNM-2016),VSSUT,Burla,Odisha,9th-10th Apr,2016.
  26. NIL
  27. NIL
  28. Kanango, R.N. and Mishra, D., (1992), A study on industrial potential of Western Orissa, Western Orissa an Ethos, Silver Jubilee Journal, SU.
  29. NIL
  30. NIL
  31. NIL
  32. NIL
  33. NIL
  34. NIL
  35. NIL
  36. NIL
  37. NIL
  38. NIL