Fretting wear mechanism for harmonic, non-harmonic and conventional 316L stainless steels

The present work analyses the effect of harmonic microstructure on the fretting wear behavior of a flat sintered 316L stainless steel sample against a bearing steel ball as well as the mechanism of wear. The fretting behavior of the harmonic 316L stainless steel was also compared with a conventional (wrought) and a sintered non-harmonic 316L stainless steel samples. Wear resistance at lower loads (2 and 5 N) was found to be considerably higher for the harmonic 316L stainless steel sample compared to that for the conventional and the sintered nonharmonic 316L stainless steel. Higher wear resistance of the harmonic 316L steel was attributed to harder shell regions distributed in periodic fashion and higher twin boundary/area than those in the coarse grained sample and subsequent engagement of the counter ball with the finer grains. However, with the increase in load, the finer shell region starts getting pulled out due to ploughing action along with the softer core region leading to an increase in coefficient of friction as well wear volume.