High-performance magnesium alloy with multi-element synergistic strengthening: Design, microstructure, and tensile properties

材料科学 微观结构 极限抗拉强度 合金 挤压 冶金 高熵合金 延伸率 复合材料
作者
Xiong Zhou,Qichi Le,Liang Ren,Chenglu Hu,Tong Wang,Qiyu Liao,Dandan Li,Xiaoqiang Li,Chunming Liu
出处
期刊:Journal of Alloys and Compounds [Elsevier BV]
卷期号:918: 165746-165746 被引量:39
标识
DOI:10.1016/j.jallcom.2022.165746
摘要

Given the limitations of the phase diagram method and the blindness of the trial-and-error method in the composition design of multi-element Mg alloys, the design of multi-element synergistic strengthening Mg alloys was conducted in this work inspired by the design concept of high entropy alloys. Out of the requirement of low-cost and high-performance wrought Mg alloys, inexpensive Al, Ca, Mn, Zn and Sn were added in different ratios. The experimental alloys were prepared by casting and one-step hot extrusion. The optimal composition was Mg-1.4Sn-0.93Zn-0.83Ca-0.67Mn-0.39Al (named as AXMZT-5) showing the best combination of strength and elongation. The microstructure of extruded pure Mg and the AXMZT-5 alloy was studied in detail to reveal the reason for the excellent yield strength (YS) of AXMZT-5 up to 280 MPa, 197% higher than that of pure Mg. Fine-grained structure, residual dislocations, and relatively uniformly distributed nanoparticles of CaMgSn, Ca 2 (Mg, Al) 6 Zn 3 , and Al-Mn phases are attributed to the high YS. In addition, the sharp (0001) basal fiber texture from the un-recrystallized grains in the bimodal microstructure also contribute to the increase of strength. A large number of fine recrystallized grains make the AXMZT-5 alloy exhibit a ductile-dominated fracture mode, which results in its excellent elongation. • The composition design of the multi-element synergistic strengthening magnesium alloys. • The yield strength of the alloy with the optimal composition was up to 280 MPa, 197% higher than pure magnesium. • The strengthening mechanisms of the alloy with optimal mechanical properties were discussed in detail.
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