High Impact Publications
[1] “A game-changer for ultra-lightweight structures and medical implants?”, April 26, 2016; Materials Today (IF = 24.37).
[2] S. S. Nene, M. Frank, P. Agrawal, S. Sinha, K. Liu, S. Shukla, R. S. Mishra, B. A. McWilliams, K. C. Cho, Microstructurally Flexible High Entropy Alloys: Linkages Between Alloy Design and Deformation Behavior, Materials and Design 194 (2020) 108968. (IF = 6.29).
[3] M. Frank, S. S. Nene, Y. Chen, B. Gwalani, E. J. Kautz, A. Devaraj, K. An, R. S. Mishra, Correlating work hardening with co‑activation of stacking fault strengthening and transformation in a high entropy alloy using in‑situ neutron diffraction, Scientific Reports 10 (2020) 22263 (IF = 4.996).
[4] P. Agrawal, S. Thapliyal, S.S. Nene, R.S. Mishra, B. A. McWilliams, K. C. Cho, Excellent strength-ductility Synergy in metastable high entropy alloy by laser powder bed additive manufacturing, Additive Manufacturing 32 (2020) 101098 (IF = 7.2).
[5] S. Thapliyal, S.S. Nene, P. Agrawal, R.S. Mishra, B. A. McWilliams, K. C. Cho, Damage-tolerant, corrosion-resistant high entropy alloy with high strength and ductility by laser powder bed fusion additive manufacturing , Additive Manufacturing 36 (2020)101455 (IF = 7.2).
[6] S.S. Nene, M. Frank, K. Liu, S. Sinha, R.S. Mishra, B. A. McWilliams, K. C. Cho, Corrosion resistant high entropy alloy with high strength and ductility, Scripta Materialia 166 (2019) 168172 (IF = 5.08).
[7] K. Liu, S.S. Nene, M. Frank, S. Sinha, R.S. Mishra, Extremely high fatigue resistance in ultrafine grained high entropy alloy, Applied Materials Today 15 (2019) 525-530 (IF = 8.35).
[8] S. Sinha, R.A. Mirshams, T. Wang, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, Nano-indentation behavior of high entropy alloys with transformation-induced plasticity, Scientific Reports 9 (2019) 6639 (IF = 4.5).
[9] S. Sinha, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, On the evolving nature of c/a ratio in a hexagonal close-packed epsilon martensite phase in transformative high entropy alloys, Scientific Reports 9 (2019) 13185 (IF = 4.5).
[10] S. Sinha, S.S. Nene, M. Frank, K. Liu, R. Lebensohn, R.S. Mishra, Deformation mechanisms and ductile fracture characteristics of a friction stir processed transformative high entropy alloy, Acta Materialia 184 (2019) 164-178 (IF = 7.293).
[11] S.S. Nene, S. Sinha, M. Frank, K. Liu, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Unexpected strength-ductility response in an annealed, metastable, high entropy alloy”, Applied Materials Today 13 (2018) 196 – 206 (IF = 8.35).
[12] S.S. Nene, K. Liu, M. Frank, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Extremely high strength and work hardenability in metastable high entropy alloy”, Scientific Reports 8 (2018) 9920 (IF = 4.5).
[13] K. Liu, S.S. Nene, M. Frank, S. Sinha, R.S. Mishra, Metastability assisted fatigue behavior in friction stir processed dual phase high entropy alloy, Materials Research Letters 6 (2018) 613 – 619 (IF = 6.60).
[14] S.S. Nene, M. Frank, K. Liu, S. Sinha, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Reversed strength-ductility relationship in microstructurally flexible high entropy alloy”, Scripta Materialia 154 (2018) 163 – 167 (IF = 5.02)
[15] S.S. Nene, K. Liu, M. Frank, R.S. Mishra, R. E. Brennan, K. C. Cho, Z. Li, D. Raabe, “Enhanced strength and ductility in a friction stir processing engineered dual phase high entropy alloy”, Scientific Reports 7 (2017) 16167 (IF = 4.5).
Publications (Year wise)
2024
[1] A.R. Balpande, S. Agarwal, X. Li, S. Suwas, S. Guo, P. Ghoshal, S.S. Nene, Excellent specific strength-ductility synergy in novel complex concentrated alloy after suction casting. Materials and Design 112988 (2024).
2023
[1] A.Dutta, S.Y. Tung, S.K. Gupta, M.H. Tsai, S.S. Nene, Room-Temperature Superformability in Novel As-Cast High-Entropy Alloy During Compressive Loading. Adv. Eng. Mater. 2201347 (2023).
2022
[1] S.S. Nene, Some distinct features of transformative high entropy alloys for metal additive manufacturing, Frontiers in Materials 9 (2022) 873911.
[2] S. Bhowmik, J. Zhang, S.C. Vogel, S. S. Nene, R.S. Mishra, B. A. McWilliams, K. C. Cho, Effects of plasticity-induced martensitic transformation and grain refinement on the evolution of microstructure and mechanical properties of a metastable high entropy alloy, Journal of Alloys and Compounds 891 (2022) 161871.
[3] P. Agrawal, S. Gupta, S. Shukla, S.S. Nene, S. Thapliyal, M.P. Toll, R.S. Mishra, Role of Cu addition in enhancing strength-ductility synergy in transforming high entropy alloy, Materials and Design 215 (2022) 110487.
2021
[1] S. S. Nene, P. Agrawal, M. Frank, A. Watts, S. Shukla, C. Morphew, A. Chestti, R. S. Mishra, Transformative high entropy alloy conquers the strength-ductility paradigm by massive interface strengthening, Scripta Materialia, 203 (2021) 114070.
[2] S. Gupta, P. Agrawal, S. S. Nene, R. S. Mishra, Friction stir welding of γ-fcc dominated metastable high entropy alloy: Microstructural evolution and strength, Scripta Materialia, 204 (2021) 114161
[3] R.S. Mishra, S.S. Nene, Some unique aspects of mechanical behavior of metastable transformative high entropy alloys, Metallurgical and Materials Transactions A 52A (2021) 889-896.
[4] S. Thapliyal, P. Agrawal, P. Agrawal, S. S. Nene, R.S. Mishra, B. A. McWilliams, K. C. Cho, Segregation engineering of grain boundaries of a transformative high entropy alloy with laser-powder bed fusion additive manufacturing, Accepted (2021)Acta Materialia.
[5] P. Agrawal, S. Shukla, S. Thapliyal, P. Agrawal, S.S. Nene, R.S. Mishra, B.A. MacWilliams, K.C. Cho, Microstructure-property correlation in a laser powder bed fusion processed high strength AF- 9628 steel, Advanced Engineering Materials, 23 (2021) 2000845.
[6] A. Sithio, M. Bhattacharyya, J. Graves, S.S. Nene, R.S. Mishra, I. Charit, Friction stir processing of a high entropy alloy Fe42Co10Cr15Mn28Si5 with transformative characteristics: Microstructure and mechanical properties, Materials Today Communications 28 (2021) 102635
[7] M. Frank, S.S. Nene, Y. Chen, S. Thapliyal, S. Shukla, K. Liu, S. Sinha, T. Wang, M. Frost, K. An, R.S. Mishra, Direct evidence of the stacking fault-mediated strain hardening phenomenon, Accepted (2021) Applied Physics Letters.
2020
[1] S. S. Nene, M. Frank, P. Agrawal, S. Sinha, K. Liu, S. Shukla, R. S. Mishra, B. A. McWilliams, K. C. Cho, Microstructurally Flexible High Entropy Alloys: Linkages Between Alloy Design and Deformation Behavior, Materials and Design 194 (2020) 108968. (IF = 6.29).
[2] S.S. Nene, S. Gupta, C. Morphew, R.S. Mishra, Friction stir butt welding of a high strength Al- 7050 alloy with a metastable transformative high entropy alloy, Materialia 11 (2020) 100740
[3] R. S. Mishra, S. S. Nene, M. Frank, S. Sinha, K. Liu, S. Shukla, Metastability driven hierarchical microstructural engineering: overview of mechanical properties of metastable complex concentrated alloys, Journal of Alloys and Compounds 842 (2020) 155625 (IF = 4.65).
[4] P. Agrawal, S. Thapliyal, S.S. Nene, R.S. Mishra, B. A. McWilliams, K. C.Cho, Excellent strength-ductility Synergy in metastable high entropy alloy by laser powder bed additive manufacturing, Additive Manufacturing 32 (2020) 101098 (IF = 7.2).
[5] S. Thapliyal, S.S. Nene, P. Agrawal, R.S. Mishra, B. A. McWilliams, K. C.Cho, Damage-tolerant, corrosion-resistant high entropy alloy with high strength and ductility by laser powder bed fusion additive manufacturing , Additive Manufacturing 36 (2020)101455 (IF = 7.2).
[6] M. Frank, S. S. Nene, Y. Chen, B. Gwalani, E. J. Kautz, A. Devaraj, K. An, R. S. Mishra, Correlating work hardening with co‑activation of stacking fault strengthening and transformation in a high entropy alloy using in‑situ neutron diffraction, Scientific Reports 10 (2020) 22263
[7] S.S. Nene, K. Liu, S. Sinha, M. Frank, S. Williams, R.S. Mishra, Superplasticity in fine grained dual phase high entropy alloy, Materialia 9 (2020) 100521.
[8] M. Frank, Y. Chen, S.S. Nene, K. Liu, S. Sinha, K. An, R.S. Mishra, Investigating the deformation mechanisms of a highly metastable high entropy alloy using in-situ neutron diffraction, Materials Today Communications 23 (2020) 100858. (IF = 2.68).
[9] K. Liu, S.S. Nene, M. Frank, R.S. Mishra, Effect of strain rate on deformation response of metastable high entropy alloys upon friction stir processing, Metallurgical and Materials Transactions A 51 (2020) 5043-5048 (IF = 2.27).
2019
[1] S.S. Nene, M. Frank, K. Liu, S. Sinha, R.S. Mishra, B. A. McWilliams, K. C. Cho, Corrosion resistant high entropy alloy with high strength and ductility, Scripta Materialia 166 (2019) 168172 (IF = 5.08).
[2] K. Liu, S.S. Nene, M. Frank, S. Sinha, R.S. Mishra, Extremely high fatigue resistance in ultrafine grained high entropy alloy, Applied Materials Today 15 (2019) 525-530 (IF = 8.35).
[3] S. Sinha, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, B. A. McWilliams, K. C. Cho, Revealing the microstructural evolution in a high entropy alloy enabled with transformation, twinning and precipitation, Materialia 6 (2019) 100310
[4] S. Sinha, R.A. Mirshams, T. Wang, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, Nano-indentation behavior of high entropy alloys with transformation-induced plasticity, Scientific Reports 9 (2019) 6639 (IF = 4.5).
[5] S. Sinha, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, On the evolving nature of c/a ratio in a hexagonal close-packed epsilon martensite phase in transformative high entropy alloys, Scientific Reports 9 (2019) 13185 (IF = 4.5).
[6] S. Sinha, S.S. Nene, M. Frank, K. Liu, R. Lebensohn, R.S. Mishra, Deformation mechanisms and ductile fracture characteristics of a friction stir processed transformative high entropy alloy, Acta Materialia 184 (2019) 164-178 (IF = 7.293).
2018
[1] S.S. Nene, S. Sinha, M. Frank, K. Liu, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Unexpected strength-ductility response in an annealed, metastable, high entropy alloy”, Applied Materials Today 13 (2018) 196 – 206 (IF = 8.35).
[2] S.S. Nene, K. Liu, M. Frank, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Extremely high strength and work hardenability in metastable high entropy alloy”, Scientific Reports 8 (2018) 9920 (IF = 4.5).
[3] K. Liu, S.S. Nene, M. Frank, S. Sinha, R.S. Mishra, Metastability assisted fatigue behavior in friction stir processed dual phase high entropy alloy, Materials Research Letters 6 (2018) 613 – 619 (IF = 6.60).
[4] S.S. Nene, M. Frank, K. Liu, S. Sinha, R.S. Mishra, B. A. McWilliams, K. C. Cho, “Reversed strength-ductility relationship in microstructurally flexible high entropy alloy”, Scripta Materialia 154 (2018) 163 – 167 (IF = 5.02).
[5] S. Sinha, S.S. Nene, M. Frank, K. Liu, R.S. Mishra, B. A. McWilliams, K. C. Cho, Microstructural Evolution and Deformation Behavior of Ni-Si and Co-Si Containing Metastable High Entropy Alloys, Metallurgical and Materials Transactions A 50 (2018) 179-190 (IF = 2.32).
[6] S.S. Nene, S. Zallner, B. Mondal, M. Komarasammy, R.S. Mishra, R. E. Brennan, K. C. Cho, “Friction stir processing of newly-designed Mg-5Al-3.5Ca-1Mn (AXM541) alloy: microstructure evolution and mechanical properties”, Materials Science and Engineering, A 729 (2018) 294 – 299 (IF = 4.65).
[7] P. Sahlot, S.S. Nene, M. Frank, R.S. Mishra, A. Arora, “Towards obtaining dissimilar lap joint between CuCrZr alloy and stainless steel using friction stir welding”, Science and Technology of Welding and Joining 23 (2018) 715 – 720
[8] T. Wang , S. Shukla, S. S. Nene, M. Frank, R. Wheeler, R.S. Mishra, “Towards obtaining sound butt joint between metallurgically immiscible pure Cu and steel through friction stir welding”, Metallurgical and Materials Transactions A 49 (2018) 2578 – 2582 (IF = 1.98).
2017
[1] S.S. Nene, K. Liu, M. Frank, R.S. Mishra, R. E. Brennan, K. C. Cho, Z. Li, D. Raabe, “Enhanced strength and ductility in a friction stir processing engineered dual phase high entropy alloy”, Scientific Reports 7 (2017) 16167 (IF = 4.5).
2016
[1] Y. Estrin, S.S. Nene, B.P. Kashyap, N. Prabhu, T. Al-Samman, “New Hot Rolled Mg-4Li-1Ca alloy: A potential candidate for automotive and biodegradable implant applications”, Materials Letters, 173 (2016) 252 – 256 (IF = 3.01).
[2] S.S. Nene, Y. Estrin, B.P. Kashyap, N. Prabhu, T. Al-Samman, B.J.C. Luthringer, R. Willumeit “Towards microstructure-cytocompatibility relationship in new ultralight Mg-4Li-1Ca alloy for degradable implant applications”, Bionanomaterials, 17 (2016) 103 - 111.
2015
[1] S.S. Nene, B.P. Kashyap, N. Prabhu, Y. Estrin, T. Al-Samman, B.J.C. Luthringer and R. Willumeit “Introducing an ultralight, high strength, biodegradable Mg-4Li-1Ca alloy”, Advanced Biomaterials and Devices in Medicine 1 (2015) 32 – 36
[2] S.S. Nene, B.P. Kashyap, N. Prabhu, Y. Estrin and T. Al-Samman, “Biocorrosion and Biodegradation Behavior of Ultralight Mg-4Li-1Ca alloy for Degradable Implant Applications”, Journal of MaterialsScience 50 (2015) 3041 – 3050 (IF = 3.44).
2014
[1] S.S. Nene, B.P. Kashyap, N. Prabhu, Y. Estrin and T. Al-Samman, “Microstructure refinement and its effect on specific strength and bio-corrosion resistance in ultralight Mg-4Li-1Ca (LC41) alloy by hot rolling”, Journal of Alloys and Compounds 615 (2014) 501 – 506 (IF = 4.17).
[2] S.S. Nene, B.P. Kashyap, N. Prabhu, Y. Estrin and T. Al-Samman, “Effect of rolling on microstructure and room temperature tensile properties of newly developed Mg-4Li-1Ca alloy”, Advanced Materials Research 922 (2014) 537 – 542 .
[3] S.S. Nene, G. Sharma, R.N. Singh, B.P. Kashyap, “Microstructural evolution in and flow properties of Zr-2.5Nb pressure tube material at elevated temperature”, Journal of Nuclear Materials 449 (2014) 62 – 68 (IF = 2.54).
2011
[1] R.K. Goyal, K.R. Kambale, S.S. Nene, B.S. Selukar, S. Arbuj, U.P. Mulik, “Fabrication, thermal and electrical properties of polyphenelyne sulphide/copper composites”, Materials Chemistry and Physics 128 (2011) 114 – 120 (IF = 2.78).
BOOK CHAPTER
[1] K. Liu, S.S. Nene, S. Shukla, R.S. Mishra, Fatigue behavior of high entropy alloys: a review, High Entropy Alloys: Innovations, Advances and Applications, CRC Press, 2019.