Title: Differences in texture evolution from low-entropy to high-entropy face-centered cubic alloys during tension test
Authors: Lin, Kuan-Hao
Chang, Shou-Yi
Lo, Yu-Chieh
Wang, Chun-Chieh
Lin, Su-Jien
Yeh, Jien-Wei
材料科學與工程學系
Department of Materials Science and Engineering
Keywords: High-entropy alloy;Annealing;Slip system;Micro-texture;Severe plastic deformation;Electron backscattering diffraction
Issue Date: 1-Mar-2020
Abstract: Texture evolution during tension test was investigated on three face-centered cubic (FCC) metals, namely, Ni (unary), equiatomic CrFeNi (ternary), and equiatomic CoCrFeMnNi (quinary) with small and large grain sizes of similar to 20 and similar to 100 mu m, respectively. The microtextures for 18%, 36% and 54% engineering strains of a tension-interrupted specimen were characterized on the same area. The three metals exhibited a similar texture evolution, which the fraction of {001}//ND remains constant However, the fraction of {011}//ND decreases, whereas that of {111}//ND increases. On the other hand, the fraction of <001>//RD also remains constant, that of <011>//RD decreases, and that of <111>//RD increases. However, the several differences still were found during plastic deformation. Fine-grained Ni initiated a significantly crystallographic rotation (CRo) at the lower strain, increased with strain and then remained nearly unchanged as strain was higher than 18%. Coarse-grained Ni delayed this rotation and slowly developed the trend at large strains. As for CrFeNi, the comparison between fine-grained and coarse-grained structure does not have obvious difference. As for fine-grained CoCrFeMnNi, it can be seen that an obvious CRo develops under 36% strain, and maintains constant over 36% strain. But the coarse-grained CoCrFeMnNi reveals that the significant CRo develops continuously from 0% to 54% strain. The mechanisms for the effects of number of element and grain size in the present study are elucidated.
URI: http://dx.doi.org/10.1016/j.intermet.2019.106635
http://hdl.handle.net/11536/153974
ISSN: 0966-9795
DOI: 10.1016/j.intermet.2019.106635
Journal: INTERMETALLICS
Volume: 118
Begin Page: 0
End Page: 0
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