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Deformation mechanism of high ductility Mg-Gd-Mn alloy during tensile process

Tianshuo Zhao, Yaobo Hu, Y.M. Wang, Yuanxiao Dai, Tianxu Zheng, Zhao Li, Kaiqi Li, Bing He, Chao Zhang, Fusheng Pan

2023Journal of Magnesium and Alloys32 citationsDOIOpen Access PDF

Abstract

In this research, a high ductility Mg-Gd-Mn magnesium alloy was designed and developed, with an elongation capability surpassing 50%. To gain insights into the underlying mechanism behind the high ductility of the Mg-2Gd-0.5Mn alloy, quasi-in-situ electron backscattered diffraction and two-beam diffraction were conducted. The results reveal that the Mg-Gd-Mn alloy exhibits a distinct rare-earth texture, and the activation of non-basal slip systems is evident from the clear observation of non-basal slip traces during the later stages of deformation. However, the primary deformation mechanisms in Mg-Gd-Mn alloy remain basal <a> slip and {10–12} tensile twinning, and the remarkable ductility observed in Mg-Gd-Mn alloys can be attributed to the softening of non-basal slip modes, which leads to a coordinated deformation between various modes of deformation. To further validate this conclusion, an analysis was conducted using a visco-plastic self-consistent (VPSC) model to investigate the relative activity of basal and non-basal slip in Mg-Gd-Mn alloys. The obtained results align well with experimental observations, providing additional support for the hypothesis.

Topics & Concepts

Materials scienceSlip (aerodynamics)AlloyUltimate tensile strengthDeformation mechanismDuctility (Earth science)Crystal twinningDeformation (meteorology)MetallurgySofteningMagnesiumPlasticityTensile testingMagnesium alloyElectron backscatter diffractionComposite materialMicrostructureCreepThermodynamicsPhysicsMagnesium Alloys: Properties and ApplicationsAluminum Alloys Composites PropertiesMetal and Thin Film Mechanics
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