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Study of the Effect of Grain-Boundary Misorientation on Slip Transfer in Magnesium Alloy Using a Misorientation Distribution Map

Jie Sun, Jianhua Liu, Qingqiang Chen, Laixiao Lu, Yanhua Zhao

2022Crystals14 citationsDOIOpen Access PDF

Abstract

The microstructure evolution of a Mg–Gd–Y alloy was studied using uniaxial tension combined with an electron backscatter diffraction technique. The results show that large amounts of slip transfer phenomena can be observed around the grain–boundary area after tension, and the activation of these slips depends largely on the misorientation of grain boundaries. The Mg–Gd–Y alloy shows almost randomized grain–boundary misorientation, but transferred slip traces were preferred at boundaries with misorientation around the [0001] axis between 0–30°. Theoretically, materials with a higher fraction of slip transfer at the grain–boundary area would improve the ductility. Upon comparing the two groups of magnesium alloy with different grain–boundary misorientation distributions, the one with more grain boundaries favored for slip transfer achieved higher elongation during a tension test. Therefore, in addition to weakening the texture, adjusting the misorientation of the grain boundaries appears to be a new method to improve the ductility of magnesium alloys.

Topics & Concepts

MisorientationGrain boundaryMaterials scienceSlip (aerodynamics)Electron backscatter diffractionMetallurgyMicrostructureMagnesium alloyGrain boundary strengtheningThermodynamicsPhysicsMagnesium Alloys: Properties and ApplicationsAluminum Alloys Composites PropertiesMicrostructure and mechanical properties
Study of the Effect of Grain-Boundary Misorientation on Slip Transfer in Magnesium Alloy Using a Misorientation Distribution Map | Litcius