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首页> 外文期刊>Journal of Materials Science >Effects of modification and heat-treatment on the abrasive wear behavior of hypereutectic Al–Si alloys
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Effects of modification and heat-treatment on the abrasive wear behavior of hypereutectic Al–Si alloys

机译:改性和热处理对过共晶铝硅合金磨粒磨损行为的影响

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摘要

In the present study, Al–Si alloys with Si contents of 23, 26, 28 and 31 wt.%, respectively, were modified with a new modifying agent. The results show that the primary silicon size decreased about 8–10 times after modification. The wear rates of the modified and heat-treated Al–Si alloys are lower than those of the unmodified and non-heat-treated Al–Si alloys, respectively. The silicon content in the range of 23–31 wt.% has a significant effect on the wear rates of the same processed Al–Si alloys (modification and heat treatment). Under the same load, the wear rates of the same processed Al–Si alloys decreased with the increasing silicon content. The abrasion took place mainly by cutting and partly by ploughing actions for the non-heat-treated Al–Si alloys, or on the contrary, mainly by ploughing and partly by cutting actions for heat-treated Al–Si alloys.
机译:在本研究中,用新的改性剂对硅含量分别为23、26、28和31 wt。%的Al-Si合金进行了改性。结果表明,改性后原硅尺寸减小了约8-10倍。改性和热处理过的Al-Si合金的磨损率分别低于未改性和未经热处理的Al-Si合金。硅含量在23-31 wt。%的范围内,对相同加工的Al-Si合金(改性和热处理)的磨损率具有重大影响。在相同的载荷下,相同加工的Al-Si合金的磨损率随硅含量的增加而降低。对于未热处理的Al-Si合金,磨损主要是通过切削和部分通过拉力作用发生的;相反,对于热处理过的Al-Si合金,其磨损主要是通过切削和部分通过切削作用来发生的。

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  • 来源
    《Journal of Materials Science》 |2007年第15期|6331-6338|共8页
  • 作者

    C. L. Xu; Y. F. Yang; H. Y. Wang; Q. C. Jiang;

  • 作者单位

    The Key Laboratory of Automobile Materials Ministry of Education and Department of Materials Science and Engineering Jilin University at Nanling Campus No.142 Renmin Street Changchun 130025 P. R. China;

    The Key Laboratory of Automobile Materials Ministry of Education and Department of Materials Science and Engineering Jilin University at Nanling Campus No.142 Renmin Street Changchun 130025 P. R. China;

    The Key Laboratory of Automobile Materials Ministry of Education and Department of Materials Science and Engineering Jilin University at Nanling Campus No.142 Renmin Street Changchun 130025 P. R. China;

    The Key Laboratory of Automobile Materials Ministry of Education and Department of Materials Science and Engineering Jilin University at Nanling Campus No.142 Renmin Street Changchun 130025 P. R. China;

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