The viscoplastic intermediate phi-model was applied in this work to predict the deformation behavior and texture evolution in a magnesium alloy, an HCP material. We simulated the deformation behavior with different intergranular interaction strengths and compared the predicted results with available experimental results. In this approach, elasticity is neglected and the plastic deformation mechanisms are assumed as a combination of crystallographic slip and twinning systems. Tests are performed for rolling (plane strain compression) of random textured Mg polycrystal as well as for tensile and compressive tests on rolled Mg sheets. Simulated texture evolutions agree well with experimental data. Activities of twinning and slip, predicted by the intermediate phi-model, reveal the strong aniso- tropic behavior during tension and compression of rolled sheets.
Revised: November 15, 2016 |
Published: January 6, 2014
Citation
Li D., S. Ahzi, S.M. M'Guil, W. Wen, C.A. Lavender, and M.A. Khaleel. 2014.Modeling of deformation behavior and texture evolution in magnesium alloy using the intermediate ?-model.International Journal of Plasticity 52.PNNL-SA-114911.doi:10.1016/j.ijplas.2013.06.005