Influence of surface roughness and oil ageing on various ceramic-steel contacts under boundary lubrication

摘要

The friction and wear behaviour of four structural ceramics (two aluminium oxides of different purity, a silicon nitride and a tetragonal zirconia polycrystal) have been investigated under boundary lubrication against a 100C6 hard steel (52100steel). The effect of three initial surface roughnesses of the ceramics is studied. Lubrication is by a commercial oil used 'as received' (new oil) and 'aged' (used oil). Tests are performed on an alternating 'pin-on-plate' tribometer. The friction andwear responses are analysed in terms of three main parameters depending on the mechanical preparation mode of the ceramics surface: the roughness magnitude, the morphology of the asperities (sharps or blunts) and the mechanical strength of the asperities. The evolution of these parameters during sliding leads to significant changes of tribological behaviour and contact pressure. The friction and wear transitions result from changes of the lubrication mode where roughness and oil have a competitive action.The wear processes of the ceramic surfaces include fracture mechanisms of the asperities and/or polishing by the mechanochemical action of the lubricant and submicronic ceramic wear debris. The worn surfaces of steel exhibit either abrasion grooves or acontinuous metallic layer covering the steel. A running-in effect is observed on both silicon nitride and zirconia but does not occur on aluminas. The stronger running-in effect is observed with used oil The used oil can lead to a very smooth slidingsurface on the ceramic and allows particularly low friction coefficients and steel wear, but only after a more severe initial degradation process. ESCA analyses on steel reveal the occurrence of a reaction film generated through chemical reactions withthe oil.