首页|Structure–performance evolution mechanism of the wear failure process of coated spherical plain bearings
Structure–performance evolution mechanism of the wear failure process of coated spherical plain bearings
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
NSTL
Elsevier
? 2022 Elsevier LtdThe spherical plain bearing is an important basic moving component which is widely used in aerospace and industrial equipment. However, current studies are predominantly conducted on gasket-type bearings, with only a few on the failure behaviour and mechanism of the coated spherical plain bearing. In the present work, the wear failure behavior of GE17ES coated spherical plain bearings is investigated using the whole life and stage life test methods. Furthermore, the mapping relationship between the macroscopic torque change and the micro-structure evolution of the bearing friction surface in each life stage is analyzed using the microscopic characterization method. The results indicate that the torque signal can reflect the service state of the bearing comprehensively. More specifically, during the normal service stage, the smooth area of the coating ensures the stable operation of the bearing. Conversely, during the signal mutation stage, the accumulation of damage on the substrate surface causes rapid failure of the bearing. In summary, the main wear failure mechanism of the bearing includes plastic deformation, abrasive wear and adhesive wear, and oxidation wear may accelerate its failure. These results revealing the damage and failure evolution process of the coated spherical plain bearing, could provide a theoretical reference for future studies on the wear failure of coated spherical plain bearing.
NSTL
Elsevier
