Fatigue assessment using an integrated threshold curve method – applications

Abstract

This paper deals with the analysis and prediction of a high-cycle fatigue behaviour in notched and damaged specimens, as well as butt-welded joints by using a threshold curve for fatigue crack propagation that includes the short crack regime (a function of crack length, a). The approach regards the effective driving force applied to the crack as the difference between the total applied driving force defined by the applied stress distribution corresponding to a given geometrical and loading configuration, Δ K( a), and the threshold for crack propagation, Δ K th( a). Chapetti’s model is used to estimate the threshold for crack propagation by using the plain fatigue limit, Δ σ e R , the threshold for long cracks, Δ K th R , and the microstructural characteristic dimension (e.g. grain size). Applications, predictions and results, in good agreement with experimental results from the literature, demonstrate the ability of the method to carry out quantitative analyses of the high cycle fatigue propagation behavior (near threshold) of short cracks in different geometrical, mechanical and microstructural configurations.