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Diffuse Interface Approach to Modeling Crystal Plasticity with Accommodation of Grain Boundary Sliding
International Journal of Plasticity ( IF 5.800 ) Pub Date : 2018-10-28 , DOI: 10.1016/j.ijplas.2018.10.012
Tian-Le Cheng, You-Hai Wen, Jeffrey A. Hawk

In diffuse-interface (phase field) models of polycrystalline solids, the grain boundaries naturally possess a narrow region of finite thickness. A Ginzburg-Landau type kinetic equation for plastic deformation of a solid is derived that combines crystal plasticity and J2 plasticity. Within such a framework for a polycrystal the grain interior can be defined by crystal plasticity, and the grain boundary region can be assigned J2 type plasticity. The two are connected smoothly. This allows the modeling framework to accommodate grain boundary sliding (GBS), an important deformation mechanism for creep. The relaxation of elastic modulus of a polycrystalline solid and the power-law creep (both accommodated by GBS) are studied by 2D and 3D simulations, respectively, and the results are compared to the 2D finite-element simulations of Ghahremani and Crossman-Ashby. A strong grain shape dependence and orientation dependence (for non-equiaxed grains) of the GBS effect are predicted by this model.
更新日期:2018-10-30

 

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