Reference author: Raja Mishra

First name

Raja

Middle name

K

Last name

Mishra

Inal, K. ., Simha, H. M., & Mishra, R. K. (2008). Numerical modeling of second-phase particle effects on localized deformation. Journal of Engineering Materials and Technology, 130.

Lévesque, J. ., Inal, K. ., Neal, K. W., Mishra, R. K., Luo, A. A., & Jiang, L. . (2007). NUMERICAL MODELLING OF LARGE STRAIN DEFORMATION IN MAGNESIUM ALLOY AM 30. Magnesium Technology 2007, 11-16.

Ali, U. ., Brahme, A. P., Mishra, R. K., & Inal, K. . (2016). New methodology to determine stable texture components under cold rolling in FCC metals. In Light Metals 2016 (pp. 159-161). Springer, Cham.

Inal, K. ., Cyr, E. ., & Mishra, R. K. (2016). A New Thermo-Elasto-Viscoplastic Crystal Plasticity Framework to Predict the Formability of Aluminum Alloys at Elevated Temperatures. Journal of Physics: Conference Series, 734, 032136. IOP Publishing.

Lévesque, J. ., Inal, K. ., Neale, K. W., Mishra, R. K., & Luo, A. A. (2016). Numerical modelling of large strain deformation in magnesium. In Essential Readings in Magnesium Technology (pp. 467-471). Springer, Cham.

Staraselski, Y. ., Brahme, A. ., Inal, K. ., & Mishra, R. K. (2013). Analytical estimation of distance-disorientation function of the material microstructure. Philosophical Magazine, 93, 3314-3331.

Izadbakhsh, A. ., Inal, K. ., & Mishra, R. K. (2012). Crystal plasticity based finite element modelling of large strain deformation in AM30 magnesium alloy. Modelling and Simulation in Materials Science and Engineering, 20, 035016.

Inal, K. ., & Mishra, R. K. (2012). Crystal plasticity based numerical modelling of large strain deformation inhexagonal closed packed metals. Procedia IUTAM, 3, 239-273.

Brahme, A. ., Staraselski, Y. ., Inal, K. ., & Mishra, R. K. (2012). Determination of the minimum scan size to obtain representative textures by electron backscatter diffraction. Metallurgical and Materials Transactions A, 43, 5298-5307.

Chandola, N. ., Inal, K. ., Mishra, R. K., & Cazacu, O. . (2012). A Macroscopic Yield Function Coupled with Crystal Plasticity Theory for Modeling Forming of AZ31 Magnesium Alloy Sheets. Supplemental Proceedings: Materials Properties, Characterization, and Modeling, 1, 427-436.