Texture evolution in nanocrystalline Ta under shock compression

SC Hu and JW Huang and ZD Feng and YY Zhang and ZY Zhong and Y Cai and SN Luo, JOURNAL OF APPLIED PHYSICS, 129, 075902 (2021).

DOI: 10.1063/5.0033153

We present systematic investigation on texture evolution in nanocrystalline Ta under planar shock wave loading at different impact velocities. Seven representative initial textures and two loading directions are studied via large-scale molecular dynamics simulations. Orientation mapping and texture analysis, including orientation distribution functions, pole figures, and inverse pole figures, are performed. Shock compression induces a 221 texture in nanocrystalline Ta initially with no texture, 100 fiber texture, 100 100 texture, and theta + gamma rolling texture via twinning, which can be traced back to grains initially with 100 . A 100 texture is induced via twinning for nanocrystalline Ta initially with no texture, 110 fiber texture, and alpha + gamma rolling texture and can be traced back to 110 . Dislocation slip and grain boundary sliding lead to the movement of 110 toward 111 , and the strengthening of 100 and 111 orientation densities. The generation of new textures is observed for most cases. However, no new texture is found in the 111 fiber texture case for shock loading parallel to the fiber, and a much slower elastic-plastic transition occurs due to the lack of deformation twinning.

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