Investigation of Al2O3‐ and SSiC‐ceramic under lubricated, reciprocating sliding contact and cavitation erosion

Abstract

AbstractTribological performance of alumina and silicon carbide ceramics as well as of the hardened steel 100Cr6 for reference was studied during reciprocating sliding and cavitation erosion in isooctane as substitute of gasoline and in distilled water. It was the aim to characterize effects of surface finish of the specimens and the liquid media on friction, resistance to sliding wear and cavitation erosion. Sliding wear tests were run on the self‐mated ceramics and ceramic/steel pairs under conditions of boundary lubrication using a laboratory tribometer with cylinder‐on‐plate geometry. Vibratory cavitation erosion tests were conducted according to ASTM G 32‐92.High initial surface roughness of coarse ground specimens led to a distinct running‐in period during sliding contact with a transition from high to low values of friction coefficient and wear intensity. Incubation time was reduced with increasing surface roughness in the cavitation tests. Depending on the materials investigated, the type of liquid media showed strong effects both during reciprocating sliding and cavitation erosion.