Abstract

A gradient structure layer was fabricated on 17-4PH specimens using an ultrasonic surface rolling process. The separation-factor methods confirmed that residual compressive stress played a critical role in improving fretting fatigue (FF) life, while gradient nano-crystalline structure and “fish scale-like” surface topography also had a beneficial influence. Residual compressive stress could enhance crack closures and reduce effective tensile stress. Nano-grains grew, and dislocation density reduced after FF experiment, which could accommodate an externally applied strain and neutralize any stress concentration. Additionally, the “fish scale-like” topography reduced total contact area between the specimen surface and fretting pad, which alleviated surface damage.

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