Grain refinement and its effect of polycrystalline metals during high strain rate deformation: Crystal plasticity modeling

doi:10.1016/j.jmst.2024.12.030

Abstract

Abstract: Corresponding to the continuous dynamic recrystallization mechanism, we proposed a dislocation entan-glement model and an energy-based criterion to capture the formation of subgrain boundaries during high strain rate deformation. A physical relationship between grain reﬁnement and dislocation evolution is established and incorporated into the crystal plasticity constitutive model, where the spatial position of the subgrain boundaries can be determined by the energy minimization path. The developed constitu-tive model is implemented to simulate the dynamic compression and tension tests of pure copper by the crystal plasticity ﬁnite element method. Results show that the developed grain reﬁnement model based on the dislocation entanglement gives good agreement with the experimental data validating its feasibil-ity and rationality. The strengthening effect of grain reﬁnement on the flow stress of metals at high strain rates depends on the competition between the strengthening of grain boundary and the softening of dis-location consumption during grain reﬁnement. Further, a series of dynamic compressions are performed on copper samples with different grain sizes to explore the strengthening effect of grain reﬁnement. The corresponding mechanisms of strengthening are analyzed and their respective contributions are also dis-cussed in detail. The developed model can accurately predict the grain reﬁnement of metals and capture its effect on strain hardening under high strain rate deformation.

Key words: Grain reﬁnement, Dynamic recrystallization, High strain rate, Crystal plasticity

Wen An, Qi-Lin Xiong, Chuan-zhi Liu, Zhenhuan Li, Jian Wang, Songlin Yao. Grain refinement and its effect of polycrystalline metals during high strain rate deformation: Crystal plasticity modeling[J]. J. Mater. Sci. Technol., 2025, 229: 125-146.

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