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Synergistic effect of broken Mg2Si and sub-micron Mg17Al12 induced by EX- ECAP on the strength and ductility of deformed Mg-4Al-1Si-1Gd alloy

Xiangpeng Zhang, Zengyao Zhang, Hongxia Wang, Yongpeng Zhuang, Lifei Wang, Weili Cheng, Wei Liang

2020Journal of Materials Research and Technology21 citationsDOIOpen Access PDF

Abstract

In order to obtain higher synthetically mechanical properties, Mg-4Al-1Si-1Gd alloy was deformed by the combination of hot extrusion and equal channel angular pressing (ECAP). The results show that combined deformation process can further promote grain refinement of Mg-4Al-1Si-1Gd alloy, so that Mg 2 Si phase distributes more uniformly and induce the precipitation of Mg 17 Al 12 particles. With the addition of subsequent ECAP, the grain size of the alloy was reduced from 10.68 ± 0.2 μm to 2.48 ± 0.1 μm. After the hot extrusion at 300 ℃ and two passes ECAP at 200 ℃, the short rod-like Mg 2 Si phase was broken and evenly distributed in the matrix. Remarkably, a large number of sub-microns Mg 17 Al 12 precipitation particles along the grain boundaries were observed, and the average particle size was 0.43 ± 0.05 μm, which can inhibit grain growth to promote grain refinement. And Mg 17 Al 12 precipitation particles can be able to prevent the dislocation from moving in view of the Orowan mechanism. At the same time, the broken Mg 2 Si particles with uniform distribution can enhance the elongation of alloy by reducing the crack source. Therefore, the optimum mechanical properties can be obtained. Specifically, the tensile strength is 293.8 MPa, the yield strength is 241.5 MPa and the elongation reaches 30.1%.

Topics & Concepts

Materials scienceAlloyPrecipitationGrain sizeElongationMetallurgyUltimate tensile strengthDuctility (Earth science)Grain boundaryDislocationExtrusionPhase (matter)PressingGrain boundary strengtheningComposite materialMicrostructureCreepMeteorologyOrganic chemistryChemistryPhysicsMagnesium Alloys: Properties and ApplicationsAluminum Alloys Composites PropertiesAluminum Alloy Microstructure Properties