Competitive giga-fatigue life analysis owing to surface defect and internal inclusion for FV520B-I

Abstract

Research of material giga-cycle fatigue shows that fatigue failure is caused by a comprehensive effect of the competition between surface defect and internal inclusion, and the competition is more significant with high strength steal FV520B-I. A clear understanding of fatigue failure mechanism can improve the accuracy of the fatigue life prediction for FV520B-I. There is currently no available fatigue-life model that describes the competition mechanism of giga cycle behavior for FV520B-I. In this paper, ultrasonic fatigue experiment is presented, which revealed the existence of the competition during the giga-cycle process. The giga-fatigue life prediction models for FV520B-I are established with the consideration of surface defect and internal inclusion. Based on fracture mechanics, the surface roughness is correlated to surface defect. The competition analysis is carried out on the basics of fatigue strength to obtain the critical defect value. The critical defect value is the direct criterion in practical engineering and the primary factor of final failure is determined by comparing the actual defect with the critical value. Then the competitive giga-fatigue model for FV520B-I is established and the actual fatigue life is calculated by substituting the actual defect value into the corresponding fatigue life model.