FRICTION AND WEAR BEHAVIOUR OF NANOCRYSTALLINE COBALT

机译：纳米晶钴的摩擦和磨损行为

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The friction and wear properties of nanocrystalline cobalt (nc Co) with a grain size of 20±5 nm and a hardness of 503±13 HV were studied using a pin-on-disc tribometer. Tests performed under unlubricated sliding conditions in ambient air showed that large tribolayer area covered the nc Co's wear track. The oxygen concentration of the tribolayer was higher than that formed on contact surfaces of microcrystalline cobalt (mc Co) with a grain size of 16±3μm and a hardness of 299±8 HV tested under the same conditions, due to the higher tendency of nc Co for oxidation. Higher rate of oxidational wear in nc Co resulted in higher initial surface damage in this material compared to the mc Co. Once the tribolayer was formed on top of the contact surfaces, a steady-state wear regime prevailed, reducing the coefficient of friction (COF) and the wear rate in this sample.

机译：使用引脚盘式摩擦计研究了粒径为20±5nm的粒径为20±5nm和硬度为503±13HV的摩擦和磨损性能。在环境空气下在非磨杂的滑动条件下进行的测试表明，大型二手区覆盖了NC CO的磨损轨道。 Tryolayer的氧浓度高于在微晶钴（MC CO）的接触表面上形成的粒径为16±3μm，并且由于NC的趋势较高，在相同条件下在相同条件下测试的299±8HV的硬度为299±8HV的硬度CO用于氧化。与MC C公司相比，NC CO中的氧化磨损率较高导致该材料中的初始表面损坏较高，一旦在接触表面的顶部形成稳态磨损状态，就会占据稳态磨损状态，降低了摩擦系数（COF ）和该样品中的磨损率。

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《ASME/STLE International Joint Tribology Conference》|2007年||共3页
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M. Shafiei; A. T. Alpas;
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中图分类 T-53;
关键词
Nanocrystalline cobalt; Grain size; Friction; Wear; Tribolayer;

机译：纳米晶的钴;粒度;摩擦;磨损;Tribolayer;

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FRICTION AND WEAR BEHAVIOUR OF NANOCRYSTALLINE COBALT

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