Crystal plasticity in fusion zone of a hybrid laser welded Al alloys joint: From nanoscale to macroscale
SH Yan and HY Zhou and BB Xing and S Zhang and L Li and QH Qin, MATERIALS & DESIGN, 160, 313-324 (2018).
DOI: 10.1016/j.matdes.2018.09.031
In this paper, we propose a novel approach to predict the plasticity of hybrid laser welded Al alloys joints based on the microplasticity obtained from the micropillar compression test. The micropillar test was performed on the single-crystal pillar with three orientations and various diameters (400 nm to 6.8 mu m). It was found that independent of orientation, the yield strength of the pillar increased with the decrease of diameter below a critical length (3.3 mu m). A numerical model was successfully built and used to explain the size effect on the pillar's strength. Crystalline orientation did affect the yield strength, the orientation having higher Schmid's factor showing lower yield strength, but the effect was reduced with the enlarged diameter. The macroscale yield strength achieved from crystal plasticity finite element simulation showed was found to have a good agreement with that from the experiment. The results here shed new insights both on the application of the micropillar study of alloys, and on prediction of strength in welded Al alloys joint. (C) 2018 Elsevier Ltd. This is an open access article under the CC BY-NC-ND license.
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