Twinning-mediated plasticity by a novel multistage twinning mode in an Mg-Al-Gd alloy
Lei Zhao, Min Zha, Yipeng Gao, Kai Guan, Peng Chen, Mengna Zhang, Zhen-Ming Hua, Hai-Long Jia, Hui‐Yuan Wang
Abstract
Twinning-mediated plasticity has great potential for enhancing the strength and plasticity of Mg alloys, which is limited due to the lack of twin types. Here, we report a novel multistage twinning mode, i.e. the dominant twinning mode changes from single {101¯2} twins to the co-existence of {101¯2} and {112¯6} twins, in a deformed Mg-Al-Gd alloy. Introducing novel multistage twinning mode to accommodate strains appreciably along c-axes, combined with the interactions of high-density dislocations and dense twin boundaries, guarantees the high strain hardening of Mg alloys. These findings provide new insights into deformation mechanisms and mechanical properties of Mg-alloys.