Effects of thermal exposure on the microstructure and mechanical properties of Al-12Si-4Cu-1Ni-1Mg-2Mn piston alloys

IF 1.3 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING International Journal of Cast Metals Research Pub Date : 2020-10-21 DOI:10.1080/13640461.2020.1838077

B. Lin, S. Xia, Yue Tang, Yuliang Zhao, Kun Liu, Huaqiang Xiao, Shaobo Li, Weiweng Zhang

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引用次数: 3

Abstract

ABSTRACT The effect of thermal exposure on the elevated-temperature mechanical properties of heat-treated Al-12Si-4Cu-1Ni-1 Mg-2Mn piston alloys was investigated using optical microscopy (OM), scanning electron microscope (SEM), transmission electron microscopy (TEM), and tensile tests at elevated temperatures. The results showed that coarsening of the strengthening precipitates following a prolonged exposure at 350°C had a deleterious effect on the elevated-temperature tensile properties. Further thermal exposure up to 50 h did not result in even a slight reduction in the strength. After exposure at 350°C, the value of elevated-temperature ultimate tensile strengths of Al-12Si-4Cu-1Ni-1 Mg-2Mn piston alloys were 92, 80, and 73 MPa for 0 h, 10 h, and 100 h of thermal exposure, respectively, which are superior to those of the commercial piston alloys. The high-performance, elevated-temperature mechanical properties of Al-12Si-4Cu-1Ni-1 Mg-2Mn piston alloys can be attributed to the high thermal stability Mn-rich intermetallics and Al3CuNi.

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热暴露对Al-12Si-4Cu-1Ni-1Mg-2Mn活塞合金组织和力学性能的影响

摘要采用光学显微镜（OM）、扫描电子显微镜（SEM）、透射电子显微镜（TEM）和高温拉伸试验研究了热暴露对热处理的Al-12Si-4Cu-1Ni-1Mg-2Mn活塞合金高温力学性能的影响。结果表明，在350°C下长时间暴露后，强化沉淀物的粗化对高温拉伸性能产生了有害影响。长达50小时的进一步热暴露甚至没有导致强度的轻微降低。在350°C下暴露后，Al-12Si-4Cu-1Ni-1Mg-2Mn活塞合金在热暴露0小时、10小时和100小时的高温极限拉伸强度分别为92、80和73MPa，这优于商业活塞合金。Al-12Si-4Cu-1Ni-1Mg-2Mn活塞合金的高性能、高温力学性能可归因于富含Mn的金属间化合物和Al3CuNi的高热稳定性。

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来源期刊

International Journal of Cast Metals Research 工程技术-冶金工程

CiteScore

2.70

自引率

7.10%

发文量

审稿时长

7.5 months

期刊介绍： The International Journal of Cast Metals Research is devoted to the dissemination of peer reviewed information on the science and engineering of cast metals, solidification and casting processes. Assured production of high integrity castings requires an integrated approach that optimises casting, mould and gating design; mould materials and binders; alloy composition and microstructure; metal melting, modification and handling; dimensional control; and finishing and post-treatment of the casting. The Journal reports advances in both the fundamental science and materials and production engineering contributing to the successful manufacture of fit for purpose castings.