The effects of subsurface microstructure evolution on fretting wear resistance of nickel-based alloy

In order to clarify the reason for the differences in the fretting wear resistance of Inconel 690 and 600 plate against 304 stainless steel ball, which is conducive to deepening the understanding of degradation mechanism, the comparative study on wear scars of two materials have been conducted in the atmosphere. The results indicated that Inconel 690 exhibited more excellent wear resistance than Inconel 600, which could be attributed to the thicker and harder tribological transformed structure (TTS) formed in worn subsurface of Inconel 690. The further structural characterizations of subsurface showed that the transformation mechanism from the matrix (coarse grains) to TTS (nano-sized grains) was dynamic recrystallization. Compared with Inconel 600, Inconel 690 possessed lower stacking fault energy (SFE) for its high chromium content, which prompted the occurrence of dynamic recrystallization and eventually led to a harder and thicker TTS in Inconel 690 worn subsurface.