极限抗拉强度
合金
延伸率
微观结构
材料科学
金属间化合物
打滑(空气动力学)
延展性(地球科学)
冶金
纹理(宇宙学)
相(物质)
粒度
物理
蠕动
人工智能
图像(数学)
热力学
量子力学
计算机科学
作者
Li Fu,Zhiqian Zhang,Xiaoqiang Li,Zheng Jia,Lin Lu,Qichi Le
标识
DOI:10.1002/adem.202201647
摘要
Effects of Al content on the microstructure and tensile properties of Mg–0.9Zn–0.2Mn–0.5RE (0.2Sm + 0.3La) alloy have been systematically investigated. In the as‐cast Mg–0.9Zn–0.2Mn–0.5RE alloy, intermetallic compounds are identified as Mg 41 Sm 5 , Mg 12 La, and Mg 12 (La, Sm) phases, while when Al is added, new Mg 17 Al 12 and Al 11 (La, Sm) 3 phase is formed instead of Mg 12 (La, Sm) phase. As Al content increases, Al 11 (La, Sm) 3 phase increases and the morphology changes from a bright needle to a short rod in the as‐cast alloys. Al 11 (La, Sm) 3 phase is broken and characterized as polygonal and rod shapes in as‐extruded alloys, and gradually increases in size and segregation as Al content increases, resulting in an increase in the ultimate strength and fluctuation of the average grain size, yield strength, and elongation. It should be noted that the as‐extruded alloy has good elongation ( A ≈ 25.3%) with 3% Al content and good tensile strength (280 MPa ≤ R m ≤ 300 MPa) with 6% and 9% Al content. Besides, the as‐extruded Mg–0.9Zn–0.2Mn–0.5RE–3Al alloy shows outstanding ductility due to the weakened texture of DRXed and sub‐structured grains and the high SF value in pyramidal <c + a> slip and basal <a> slip.
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