High quality ceramic materials used in rolling element bearing applications show some practical advantages over traditional bearing steels. Silicon nitride has been found to have the optimum combination of properties suitable for certain high speed, low mass and high stiffness applications. Hybrid silicon nitride rolling element bearings are now supplied as standard components by manufacturers. Coatings may also be considered to enhance the capability of hybrid bearings for applications such as high speed and high temperature. A modified four-ball machine was employed to produce accelerated rolling contact fatigue failures of these materials. Silicon nitride verses steel, silicon nitride verses silicon nitride and tungsten carbide coating verses steel configurations were considered. The lubricated tests were performed at relatively high loads and speeds ie. maximum compressive stress from 4.5 to 8.1 GPa at 4000 to 10,000 r/min. Measurement of residual stresses is an important aspect of surface engineering. An X-ray method was employed since it is the only practical non-destructible means of measuring residual stress of these materials at the pre-test and post-test stages. Experimental testing, surface examinations and residual stress measurements are described for case study failures. Results are presented for a selection of surface failures of hot isostatically pressed silicon nitride and thermally sprayed tungsten carbide rolling elements. The role of the residual stress within these materials before and after rolling contact fatigue testing is discussed.
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机译:与传统轴承钢相比,用于滚动轴承应用的优质陶瓷材料具有一些实际优势。已发现氮化硅具有适合某些高速,低质量和高刚度应用的最佳性能组合。混合氮化硅滚动轴承现在由制造商作为标准组件提供。还可以考虑使用涂层来增强混合轴承在高速和高温等应用中的能力。使用改进的四球机来产生这些材料的加速滚动接触疲劳破坏。考虑了氮化硅与钢,氮化硅与氮化硅,碳化钨涂层与钢构型的关系。润滑测试是在相对较高的负载和速度下进行的。 4000至10,000 r / min时最大压缩应力从4.5至8.1 GPa。残余应力的测量是表面工程的重要方面。使用X射线方法是因为它是在测试前和测试后阶段测量这些材料残余应力的唯一实用的不可破坏的手段。描述了案例研究失败的实验测试,表面检查和残余应力测量。给出了选择热等静压氮化硅和热喷涂碳化钨滚动元件的表面失效的结果。讨论了滚动接触疲劳试验前后这些材料中残余应力的作用。
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