In-situ Observation of Migration of {10¯12} α Twinning in an Mg-5Gd-3.5Ga (at.%) As-Cast Alloy

Kaixuan Li, Yuanlin Zhuang, Ligong Zhao, Dongshan Zhao, He Zheng, Shuangfeng Jia, Ying Zhang, Peili Zhao, J. Gui, Jianbo Wang
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Abstract

We have achieved direct observation of the interaction between {10¯12}α twinning and long period stacking ordered (LPSO) structures in an Mg-5Gd-3.5Ga (at.%) as-cast alloy through in-situ compression experiments of submicron-sized pillars, and found that thick LPSO plates effectively retard the twinning propagation in the direction of perpendicular to the LPSO basal plane. In addition, although twinning can easily pass through low-density stacking faults (SFs), the step of twin boundaries on both sides of SFs on the atomic scale also exhibits resistance of SFs to twins. Dense LPSO structures hinder the occurrence of plastic deformation caused by twinning deformation. In this study, an in-situ technique was used to further discuss the strengthening mechanism of LPSO structures.
Mg-5Gd-3.5Ga (at.%)铸态合金{10¯12}α孪晶迁移的原位观察
通过亚微米柱的原位压缩实验,直接观察了Mg-5Gd-3.5Ga (at.%)铸态合金中{10¯12}α孪晶与长周期有序堆积(LPSO)结构之间的相互作用,发现厚的LPSO板有效地延缓了与LPSO基面垂直方向的孪晶扩展。此外,虽然孪晶可以很容易地通过低密度层错,但在原子尺度上,层错两侧的孪晶边界步进也表现出对孪晶的抗性。致密的LPSO结构阻碍了孪生变形引起的塑性变形的发生。在本研究中,采用原位技术进一步探讨了LPSO结构的强化机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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