Abstract

Abstract Based on a fully flooded non-Newtonian transient thermal elastohydrodynamic lubrication analysis of representative engineering ceramics and a steel with different thermal conductivities and different surface roughness, it is clarified that material combinations leading to a reduction in the maximum film pressure can be found using the thermal conductivities of the contacting materials and the smooth surface temperatures of the same contacting materials. The results will make a significant contribution to the design of machine elements involving contact between materials of different thermal conductivity and surface roughness.

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