Cu-SiO2烧结材料的摩擦磨损性能研究
Study on Friction and Wear Properties of Sintered Cu-SiO2 Composites
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摘要: 采用粉末冶金技术制备Cu-SiO2烧结材料,通过定速摩擦磨损试验机研究SiO2含量对Cu-SiO2烧结材料摩擦磨损性能的影响规律,在摩擦速度7.8~47 m/s范围内探讨摩擦速度和SiO2含量与摩擦第三体之间的关系.结果表明:随着SiO2含量增加,材料的摩擦系数升高、磨损量降低,同时材料的硬度增加、密度降低、孔隙度增加;摩擦表面所形成的第三体特征与摩擦速度密切相关,当摩擦速度较低时,所形成的第三体疏松而不连续,与基体的结合强度较低,容易从摩擦表面脱离而增加磨损量;当摩擦速度提高时,所形成的第三体致密连续,与基体的结合强度好,有利于提高摩擦系数和降低磨损量;在摩擦温度过高的情况下,基体金属强度降低,削弱了对SiO2硬质点的夹持能力,SiO2破碎严重而使磨损量增加,同时高温状态的第三体变形大且流动性好,可以起到润滑膜的作用而降低材料的摩擦系数.Abstract: Influence of SiO2 content on the properties of Cu-SiO2 composites, fabricated by powder metallurgy method, was studied. Its tribological properties related to the sliding speed, SiO2 content, and third bodies were investigated by a pin-on-disk tester with speed ranging from 7.8 to 47 m/s. Friction coefficient, hardness and porosity increased while the wear rate and the volume density decreased with increasing SiO2 content. The third body configuration strongly depended on the sliding speed. At lower speeds, the third bodies were porous and were readily detached from the substrate, resulting in larger wear. At higher speeds, the third bodies were dense and sticked to the surface strongly due to higher temperature, which decreased the wear while it increased the friction coefficient. However, too high temperature may weaken the substrate which supporting the hard SiO2 particles, and as a result, the wear increased. On the other hand, at high temperature, the plasticity of the third bodies was relatively good and led to decreased friction coefficient.