ISSN   1004-0595

CN  62-1095/O4

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WC-Ni金属陶瓷高温摩擦学性能的研究[J]. 摩擦学学报, 1990, 10(4).
引用本文: WC-Ni金属陶瓷高温摩擦学性能的研究[J]. 摩擦学学报, 1990, 10(4).
Study on the High Temperature Tribological Characteristics of WC-Ni Composites[J]. TRIBOLOGY, 1990, 10(4).
Citation: Study on the High Temperature Tribological Characteristics of WC-Ni Composites[J]. TRIBOLOGY, 1990, 10(4).

WC-Ni金属陶瓷高温摩擦学性能的研究

Study on the High Temperature Tribological Characteristics of WC-Ni Composites

  • 摘要: 本文考察了WC—Ni金属陶瓷的组成,显微组织和硬度及摩擦学条件等对其高温摩擦学性能的影响,并且发现WC-Ni材料在高温下摩擦时,表面生成了含氧化合物NiWO_4和WO_3,故其摩擦磨损性能比常温下的好。试验结果表明,NiWO_4有高温减摩作用,WO_3有抗磨作用;WC-Ni材料中的Ni含量为40%(wt)时,其在载荷39.2N、速度1m/s、温度600℃下摩擦形成的表面膜比较均匀连续,摩擦系数最低。

     

    Abstract: Abstract: The author studied the composition, microstructure and hardness of WC-Ni composites and examined the influence of operating conditions on high temperature tribological properties. It was found that under high temperature the friction-wear characteristics are better than that at room temperature due to the oxycompounds (NiWO, and WO3) formed on the surface of WC-Ni composites. Thr results shown that NiWO4 has anti-friction effect at high temperature and WO3 has anti-wear ability, ft was suggested that NiW04 is the product of W03 reacted with NiO. The microstructure and hardness is changed with Ni content of WC-Ni composite. When content increases Ni converts from dispersed state to continuous state, in contrast? WC converts to dispersed state. In the case of 40% of Ni content the distribution of WC is similar to that of Ni. They appear in as both dispersed state and continuous state. The weight percentage of WC is close to Ni in the bulk (the volume percentage of Ni is 54% when the waight percental is 40%) .When the volume percentage of Ni is close to WC,the NiWO4 has a smooth distribution under 39.2N of load. 1m/s of speed and 600C of temperature, the surface film is homogenous and continuous, and its friction is better. When Ni content is higher than 40%, the composite, with a dispersed WC phase and a continuous Ni skeleton, has no good anti-wear behaviour. However, when Ni content is lower than 40%, the composite with a continuous WC phase, and WC or WC-Ni skeleton, has better anti-wear property.

     

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