Effect of inter-asperity cavitation on thermal elastohydrodynamic lubrication of infinite line contact rough surfaces

Abstract

A numerical solution of a thermal elastohydrodynamic lubrication (EHL) of infinite line contact rough surfaces is obtained. The effect of density flow factor on the bearing characteristics are studied based on an average flow model of rough surface lubrication with inter-asperity cavitation. The modified average Reynolds equation, elasticity equation and energy equations are solved simultaneously using a modified Houpert and Hamrock fast approach. The inclusion of density flow factor influences the bearing characteristic for thermal rough EHL problem. The minimum film thickness increases by 20% approximately for longitudinally oriented surfaces when the inter-asperity cavitation is considered.