SiC纳米颗粒含量对粉末冶金法制备A380铝合金纳米复合材料力学性能和磨损行为的影响

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摘要

在本研究中,研究了添加SiC纳米颗粒对A380铝合金硬度和磨损性能的影响。分别为0、0.5、1和2 wt.%的A380铝粉和SiC纳米颗粒在行星球磨机中氩气环境中研磨10小时。球粉重量比和转速分别调整为1:10和250rpm。铣削过程后,使用热压机生产样品。产品通过直径为15mm的石墨模具,加热速度为10℃/min,最终烧结温度为520℃,真空保温时间为30分钟,压力为50 MPa,放入热压机中。分别用光学显微镜和维氏硬度计对试样的显微组织和硬度进行了检测。采用销盘法对其耐磨性进行了评价。样品的最大硬度与含有0.5 wt.% SiC纳米颗粒的铝合金有关。与其他实验样品相比,AlA380-2 wt.% SiC纳米复合材料具有最高的耐磨性。
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The Effect of SiC Nanoparticles’ content on Mechanical Properties and Wear Behavior of A380 Aluminum Alloy Nanocomposite Produced by Powder Metallurgy Method
In this research, the effect of adding SiC nanoparticles on the hardness and wear behavior of A380 aluminum alloy was investigated. A380 aluminum powder and SiC nanoparticles with values of 0, 0.5, 1, and 2 wt.% were ground in a planetary ball mill in argon atmosphere for 10 hours. The weight ratio of ball to powder and the rotation speed was adjusted at 1:10 and 250 rpm, respectively. After the milling process, a hot press was used to produce the samples. The products were produced through a graphite mold with a diameter of 15 mm at a heating rate of 10 °C/min to a final sintering temperature of 520 °C and a holding time of 30 minutes in vacuum under pressure of 50 MPa and were placed in the hot press machine. The microstructure and hardness of the samples were examined using an optical microscope and Vickers hardness tester apparatus, respectively. The wear resistance was evaluated by pin-on-disk method. The greatest hardness of the samples was related to the aluminum alloy containing 0.5 wt.% SiC nanoparticles. AlA380-2 wt.% SiC nanocomposite represented the highest wear resistance compared to the other experimented samples.
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