S. Behera, S. Panigrahi, G. Racineux, and S. Marya,"A novel mathematical-based approach to predict the high-speed deformation behavior of cryodeformed materials with varying stacking fault energies", Materials Science and Engineering: A, vol.902, no.146538, Elsevier 2024, 10.1016/j.msea.2024.146538       Article

S. Behera and P. S. K,"Role of twin fraction on the hardening stage in cryodeformed fcc materials", Materials Science and Engineering: A, vol.833, Elsevier 2022, 10.1016/j.msea.2021.142454       Article

S. Behera and P. S. K,"A phenomenological model based on nanostructured dislocation cluster interactions to predict the work hardening behavior of cryodeformed materials", International Journal of Plasticity, vol.133, Elsevier 2020, 10.1016/j.ijplas.2020.102772       Article

V. Pamar, K. Changela, S. Behera, M. M. Sankar, S. Mohanty, S., K. Hariharan, and D. Kalyanasundaram,"Relationship between dislocation density and antibacterial activity of cryo-rolled and cold-rolled copper", Materials, vol.12, no.2, pp.1-11, MDPI 2019, 10.3390/ma12020200       Article

S. Behera, Dhl. A, and P. S. K,"Mathematical prediction model to establish the role of stacking fault energy on the cryo-deformation behavior of fcc materials at different strain levels", International Journal of Plasticity, vol.97, pp.159 – 177, Elsevier 2017, 10.1016/j.ijplas.2017.05.014       Article