The objective of this research was to investigate wear mechanisms of silicon nitride as bearing elements. The study is focused on two questions: (1) How does Si{dollar}sb3{dollar}N{dollar}sb4{dollar} wear initiate and develop in the hybrid ball bearing system? (2) What materials and mechanical factors control wear initiation and development? The properties and fracture behavior of advanced silicon nitride bearing material, such as toughness, crack initiation and propagation, R-curve behavior, cyclic fatigue resistance, subcritical crack growth, and fractography, have been studied. The ball-on-disc cyclic-fatigue testing method has been successfully designed and applied to simulate loading conditions in a hybrid ball-bearing operation. The diametral compression test has been used to study crack growth mechanisms and environmental influence on crack growth. The AFM, SEM, and XPS are the primary techniques that were used to study the topography and chemistry of the fracture and wear surfaces. From this research, wear mechanism models for Si{dollar}sb3{dollar}N{dollar}sb4{dollar} bearing materials have been established. The causes of the wear have been determined to be directly related to a mode I brittle fracture process. The results of this research will lead to improvement in silicon nitride wear resistance by adjustment of the microstructure.
展开▼
机译:这项研究的目的是研究氮化硅作为轴承元件的磨损机理。该研究集中在两个问题上:(1)在混合滚珠轴承系统中,Si {dollar} sb3 {dollar} N {dollar} sb4 {dollar}的磨损如何引发和发展? (2)哪些材料和机械因素控制着磨损的产生和发展?研究了先进的氮化硅轴承材料的性能和断裂行为,例如韧性,裂纹萌生和扩展,R曲线行为,耐循环疲劳性,亚临界裂纹扩展和断口形貌。圆盘球循环疲劳测试方法已成功设计并应用于模拟混合滚珠轴承操作中的载荷条件。径向压缩试验已用于研究裂纹扩展机理和环境对裂纹扩展的影响。 AFM,SEM和XPS是用于研究断裂和磨损表面的形貌和化学性质的主要技术。通过这项研究,建立了Si {dollar} sb3 {dollar} N {dollar} sb4 {dollar}轴承材料的磨损机理模型。已经确定磨损的原因与I型脆性断裂过程直接相关。这项研究的结果将通过调整微观结构来提高氮化硅的耐磨性。
展开▼
