Journal Publications

Year – 2024

1. Nitish Bibhanshu, Rashi Rajanna, Amit Bhattacharjee and Satyam Suwas; "Investigation of Survived Solidification Features After Hot Isostatic Pressing in Third Generation γ-TiAl Alloys: Ti–45Al–(5, 10)Nb–0.2B–0.2C"; Metallurgical and Materials Transactions A; 55, 854–869 (2024). https://doi.org/10.1007/s11661-023-07290-8

2. D O Akamo, K Li, T Turnaoglu, N Kumar, Yuzhan Li, C Pekol, Nitish Bibhanshu, M Goswami, J Hirschey, T J LaClair, D J Keffer, O Rios, K R Gluesenkamp; "Enhanced thermal reliability and performance of calcium chloride hexahydrate phase change material using cellulose nanofibril and graphene nanoplatelet"; Journal of Energy Storage; Volume 75, 1 January 2024, 109560; https://doi.org/10.1016/j.est.2023.109560.

Year – 2023

3. Nitish Bibhanshu*, C. P. Massey, J Harp, A. T. Nelson; “Analysis of Orientation-Dependent Plasticity in Additively Manufactured Zr Using In-Situ Tensile Testing: Twinning and Orientation Gradient”; Materials Science and Engineering A; 8 July 2023, 145353. Doi - https://doi.org/10.1016/j.msea.2023.145353.

4. B. K. Deogade, Nitish Bibhanshu, R. Kalsar, S. G. Acharyya, K. S. Suresh; “Constitutive Modelling of Hot Deformation Behaviour of Mg-0.5 wt% Ce Alloy”; Transactions of the Indian Institute of Metals, 2023/7/10. Doi - https://doi.org/10.1007/s12666-023-03022-z.

5. S. Ghosh, Nitish Bibhanshu, S. Suwas, K. Chatterjee; “Micro-mechanisms underlying enhanced fatigue life of additively manufactured 316L stainless steel with a gradient heterogeneous microstructure” Materials Science and Engineering: A; 886 (2023) 145665. https://doi.org/10.1016/j.msea.2023.145665.

Year – 2022

6. Nitish Bibhanshu, M. Gussev, T. S. Byun; “Two-Step Deformation-Induced Martensitic Transformation in Additively Manufactured High-Si Stainless Steel”, Materials Science and Engineering A, Volume 861, 19 December 2022, 144341. Doi - https://doi.org/10.1016/j.msea.2022.144341.

7. T. S. Byun, M. N. Gussev, Nitish Bibhanshu, T, G Lach; “Deformation Mechanism Transition in Additively Manufactured Compositionally Graded Fe-Base Alloys”, JOM (2022). https://doi.org/10.1007/s11837-022-05401-1

8. Nitish Bibhanshu, N. Prasad, N. Nayan, G.S Awadhani, R. K. Ray, and S. Suwas; “Tensile response and hardening response in a porous High Entropy Alloy: FeCoNiMnCu”, Intermetallics, 143 (2022) 107461; doi - https://doi.org/10.1016/j.intermet.2022.107461.

9. T. Dandekar; R. K. Khatirkar, A. Kumar; Nitish Bibhanshu; Satyam Suwas; “Unidirectional Cold Rolling of Fe-21Cr-5Mn-1.5Ni Alloy – Microstructure, Texture and Magnetic Properties”; Journal of Magnetism and Magnetic Materials, 549 (2022) 169040; doi - https://doi.org/10.1016/j.jmmm.2022.169040

10. Nitish Bibhanshu*, Maxim, N. Gussev, Caleb P Massey and Kevin G. Field; “Investigation of deformation mechanisms in an advanced FeCrAl alloy using an in-situ tensile testing” Materials Science and Engineering A; 832 (2022) 142373; doi - https://doi.org/10.1016/j.msea.2021.142373.

11. C. P. Massey, Nitish Bibhanshu, M. N. Gussev, C. J. Havrilak, A. T. Nelson; Deformation and Fracture Characteristics of Zirconium Plate Produced via Ultrasonic Additive Manufacturing; Journal of Materials Research 37 (2022), 236–246; https://doi.org/10.1557/s43578-021-00380-6.

Year – 2021

12. Nitish Bibhanshu*, Rashi R, Amit Bhattacharjee and Satyam Suwas; “Phase Transformation in Third Generation Gamma-Titanium Aluminides: Ti-45Al-(5,10) Nb-0.2B-0.2C” (Metallurgical and Materials Transection A, Accepted). Doi - 10.1007/s11661-021-06469-1.

13. M. N. Gussev W. Tang, Nitish Bibhanshu and T. M. Rosseel; Microstructure and Mechanical Performance of the Friction Stir Welds Performed on Neutron-Irradiated Steel with Helium; ORNL/TM-2021/2079M2LW-21OR0406019; Oak Ridge National Laboratory, Technical Report; August 2021.

14. M. N. Gussev, Nitish Bibhanshu, J. Dixon, T. M. Rosseel; Experimental Evaluation of Deformation and Fracture Mechanisms in Highly Irradiated Austenitic Steels; ORNL/TM-2021/2306M3LW-21OR040202; Oak Ridge National Laboratory, Technical Report; October 2021.

15. T. R. Dandekar, R. K. Khatirkar, A. Gupta, Nitish Bibhanshu, A. Bhadauria, S. Suwas; “Strain rate sensitivity behaviour of Fe–21Cr-1.5 Ni–5Mn alloy and its constitutive modelling” Materials Chemistry and Physics, 271 (2021), 124948

16. Nitish Bibhanshu*, M. N. Gussev, T. M. Rosseel; “Quantification of in-grain lattice gradient in neutron irradiated 304L SS during deformation using in-situ EBSD” Microscopy and Microanalysis, 27, (S1) (2021) 3366-3368.

17. S. Ghosh, Nitish Bibhanshu, S. Suwas, K. Chatterjee; “Tailoring Nanostructure to Impart Superior Strength and Ductility in Additively Manufactured 316L Stainless Steel by Surface Mechanical Attrition Treatment” (Materials Science and Engineering A, 820 (2021), 141540).

18. Nitish Bibhanshu* and Satyam Suwas; “Globularisation of α2 phase in two phases (α2+γ) lamellar titanium aluminide: Ti-48Al-2Cr-2Nb; Materials Letter, Volume 292, 1 June 2021, 129617; doi - https://doi.org/10.1016/j.matlet.2021.129617.

19. Nitish Bibhanshu*, M. N. Gussev, T. M. Rosseel; “Complexity of deformation mechanism in neutron-irradiated 304L austenitic stainless steel at microstructural scale” Materials Characterization, 178 (2021) 111218.

20. A. Gupta, R. K. Khatirkar, A. Kumar, K. S. Thool, Nitish Bibhanshu, S. Suwas; “Texture Development During Cold Rolling of a β-Ti Alloy: Experiments and Simulations” Metallurgical and Materials Transactions A, 52 (3) (2021) 1031-1043.

21. Nitish Bibhanshu*, G. Shankar and Satyam Suwas; Hot deformation and softening response in two-phase (α2+γ) titanium aluminides: Ti-48Al-2V and Ti-48Al-2V-0.2B (Journal of Materials Research, doi - https://doi.org/10.1557/jmr.2020.99).

Year – 2020

22. M. N. Gussev, Nitish Bibhanshu, E. Cakmak, J. Dixon; “Analysis of Deformation Localization Mechanisms in Highly Irradiated Austenitic Stainless Steel via In-Situ Techniques” Oak Ridge National Laboratory, “ORNL/TM-2020/1739; M3LW-20OR0402025” (Technical Report).

23. G. Kaur, V. Kumar, Nitish Bibhanshu, K. S. Suresh, I. Lahiri; “Influence of Surface Texture and Composition on Graphene Growth by Chemical Vapor Deposition on Cu–Ni Alloys for Field Emission Application” ACS Applied Nano Materials, 3 (10) (2020) 9804-9812

24. Nitish Bibhanshu, Amit Bhattacharjee and Satyam Suwas; Hot deformation response of titanium aluminides Ti-45Al-(5, 10)Nb-0.2B-0.2C with pre-conditioned microstructures (Journal of Alloys and Compounds, 832 (2020) 154584: doi - https://doi.org/10.1016/j.jallcom.2020.154584)

25. Nitish Bibhanshu*, Satyam Suwas; “Mechanism of shear band formation and dynamic softening in a two-phase (α2+ γ) titanium aluminide” Journal of Materials Research, 35 (13) (2020) 1635 – 1646, :doi- https://doi.org/10.1557/jmr.2020.99

Year – 2019

26. A. Gupta, R. K. Khatirkar, A. Kumar, K. Thool, Nitish Bibhanshu, S. Suwas; “Microstructure and texture development in Ti-15V-3Cr-3Sn-3Al alloy–Possible role of strain path” Materials Characterization; 156 (1019), 109884

27. Nitish Bibhanshu, Amit Bhattacharjee and Satyam Suwas; “Influence of temperature and strain rate on microstructural evolution during hot compression of Ti-45Al-xNb-0.2C-0.2B titanium aluminide alloys” JOM, 71 (2019) 3552–3564; doi - https://doi.org/10.1007/s11837-019-03722-2).

28. N. Prasad, Nitish Bibhanshu, N. Nayan, G. S. Avadhani, S. Suwas; “Hot Deformation behavior of the High Entropy Alloy CoCuFeMnNi”; Journal of Materials Research, 34 (5) (2019) 744 - 755. Doi -  https://doi.org/10.1557/jmr.2018.500

29. S. Tekumalla, Nitish Bibhanshu, S. Suwas, M. Gupta; “Superior ductility in magnesium alloy-based nanocomposites: the crucial role of texture induced by nanoparticles”, Journal of Materials Science, 54 (2019) 8711–8718.

Year – 2018

30. A. Kumar, A. Gupta, R. K. Khatirkar, Nitish Bibhanshu, S. Suwas; “Strain Rate Sensitivity Behaviour of a Chrome-Nickel Austenitic-Ferritic Stainless Steel and its Constitutive Modelling”, ISIJ International, 58 (10) (2018) 1840-1849.

31. S. Tekumalla, Nitish Bibhanshu, R. Shabadi, S. Suwas, T. M. H. Ha, M. Gupta; “Evolution of texture and asymmetry and its impact on the fatigue behaviour of an in-situ magnesium nanocomposite” Materials Science and Engineering: A, 727 (2018) 61-69.

32. S. Tekumalla, Y. Nandigam, Nitish Bibhanshu, S. Rajashekara, C. Yang, S. Suwas, M. Gupta; “A strong and deformable in-situ magnesium nanocomposite igniting above 1000 °C”, Scientific reports, 8 (1) (2018) 1-10

33. Nitish Bibhanshu and Satyam Suwas; Hot Deformation and Dynamic Recrystallization in Titanium Aluminide; Materials Science Forum, Vol. 941 (2018), pp. 1391-1396.

Year – 2017

34. A. Kumar, R. K. Khatirkar, D. Chalapathi, Nitish Bibhanshu, S. Suwas; “Texture development during cold rolling of Fe–Cr–Ni alloy-experiments and simulations”, Philosophical Magazine, 97 (23) (2017) 1939-1962.

35. R. K. Sabat, S. K. Sahoo, B. D. Bishoyi, Nitish Bibhanshu and S. Suwas; Improvement in mechanical properties of commercially pure titanium through reverse rolling; Phil. Mag Letters, 97 (7) (2017) 273–279.

36. S. Kandalam, R.K. Sabat, Nitish Bibhanshu, GS Avadhani, S Kumar, and Satyam Suwas; Superplasticity in high temperature magnesium alloy WE43, Mater. Sci. and Engg: A,  687 (2017) 85-92.