Investigation of the impact-sliding fretting behaviour of 690 alloy tube using the finite element method

Abstract

Abstract Flow induced vibration inevitably leads to fretting damage behavior on the surface of steam generator tubes. Impact-sliding fretting wear indicates that alloy tube surface experiences a dynamic impact and a sliding shear behavior simultaneously. Finite element analysis was conducted to investigate the dynamic mechanical response of the Inconel 690 alloy tube, which is influenced by different impact-sliding fretting parameters under frictionless condition. Results showed that the effects of sliding frequency and amplitude on the contact stress, elastic-plastic strain and energy dissipation of the fretting interface were not directly proportional. Increasing the impact amplitude would enhance this dynamic behavior effect.