Very high cycle fatigue behaviour of 2000‐MPa ultra‐high‐strength spring steel with bainite–martensite duplex microstructure

Abstract

ABSTRACTThe very high cycle fatigue and fatigue crack growth (FCG) behaviours of 2000‐MPa ultra‐high‐strength spring steel with different bainite–martensite duplex microstructures (designated as B‐M1 and B‐M2) obtained through isothermal quenching and fully martensite (designated as M) for comparison were studied in this paper by using ultrasonic fatigue testing and compact‐tension specimens. It was found that for the B‐M1 sample with well‐controlled thin and uniformly distributed bainite, the fatigue crack threshold ΔKth is higher and FCG rate da/dN at an early stage is lower than those of the M sample. Therefore, the former has rather longer fatigue life at high stress amplitude, though both have almost identical fatigue strength. However, the fatigue properties of bainite–martensite duplex microstructure are significantly deteriorated with the formation of large bainite. Furthermore, like that of the M sample, the S–N curves of the B‐M1 and B‐M2 samples also display continuous declining type and fish‐eye marks were always observed on the fracture surface in the case of internal fractures, which were mainly induced by inclusion. A granular bright facet (GBF) was observed in the vicinity around the inclusion. For each of the three samples, the stress intensity factor range at the boundary of inclusion (ΔKinc) decreases with increasing the number of cycles to failure (Nf), while the stress intensity factor range at the front of GBF(ΔKGBF) is almost constant with Nf and equals to its ΔKth. This indicates that ΔKGBF might be the threshold value governing the beginning of stable crack propagation.