COMPUTATIONAL EVALUATION OF WEAR AND ROUGHNESS IN MIXED LUBRICATION REGIME

Aims Wear is difficult to predict in mixed lubricated articulating surfaces and the time of computation is one of the challenges due to the deterministic definition of roughness on a micro-scale. This research aims to efficiently capture the wear and the evolution of the roughness of mixed lubricated bearing surfaces, employing a statistical description of the roughness. Methods A numerical model was developed which characterizes the wear of a loaded and lubricated pin-on-plate system, assuming a rough non-wearing pin and a rough wearing plate. The part of the load, which is borne by asperities in contact, is derived from the Greenwood-Williamson approach and the rest, which is carried by the fluid film, is based on the Patir-Cheng flow factors lubrication method. Wear is computed in the areas of direct solid contact only. For simplicity, the depth of the pin and plate are assumed infinite in order to reduce the lubrication problem to one-dimension. The roughness and asperities are described by their Cumu...