压铸镁合金AM50的应变硬化及断裂行为

4区 材料科学 Q2 Engineering
Zhizhong Sun, Ming Zhou, Henry Hu, Naiyi Li
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引用次数: 9

摘要

了解压铸镁合金的拉伸和断裂行为对各种新兴汽车应用的合理设计具有重要意义。在本研究中,镁合金AM50高压压铸成矩形板,截面厚度分别为2、6和10 mm。研究了断面厚度对压铸AM50的应变硬化和断裂行为的影响。拉伸试验结果表明,AM50压铸件的屈服强度(YS)、极限抗拉强度(UTS)和伸长率(Ef)随截面厚度的增加而降低。真应力应变曲线分析表明,合金塑性变形过程中的应变硬化速率随截面厚度的减小而增大。SEM断口观察表明,AM50压铸件的断裂行为受断面厚度的影响。随着断面厚度的增加,AM50的断裂由延性断裂向脆性断裂过渡,孔隙率增加,显微组织粗化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Strain-Hardening and Fracture Behavior of Die Cast Magnesium Alloy AM50
Understanding tensile and fracture behaviors of die cast magnesium alloys is of importance for proper design of various emerging automotive applications. In the present study, magnesium alloy AM50 was high pressure die cast into rectangular coupons with section thicknesses of 2, 6, and 10 mm. Effect of section thicknesses on strain-hardening and fracture behaviors of the die cast AM50 was investigated. The results of tensile testing indicate that the tensile properties including yield strength (YS), ultimate tensile strength (UTS), and elongation (Ef) decrease with increasing section thicknesses of die cast AM50. The analysis of true stress versus strain curves shows that the straining hardening rates during the plastic deformation of the alloy increase with decreasing section thicknesses. The observation via SEM fractography illustrates that the fracture behavior of die cast AM50 is influenced by section thicknesses. As the section thickness increases, the fracture of AM50 tends to transit from ductile to brittle mode due to increasing porosity content and coarsening microstructure.
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来源期刊
Advances in Materials Science and Engineering
Advances in Materials Science and Engineering Materials Science-General Materials Science
CiteScore
3.30
自引率
0.00%
发文量
0
审稿时长
4-8 weeks
期刊介绍: Advances in Materials Science and Engineering is a broad scope journal that publishes articles in all areas of materials science and engineering including, but not limited to: -Chemistry and fundamental properties of matter -Material synthesis, fabrication, manufacture, and processing -Magnetic, electrical, thermal, and optical properties of materials -Strength, durability, and mechanical behaviour of materials -Consideration of materials in structural design, modelling, and engineering -Green and renewable materials, and consideration of materials’ life cycles -Materials in specialist applications (such as medicine, energy, aerospace, and nanotechnology)
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