Numerical simulation of plasticity-induced fatigue crack closure with emphasis on the crack growth scheme: 2D and 3D analyses

Abstract

In this paper a numerical simulation of plasticity-induced fatigue crack closure is performed using the finite element method. Emphasis is placed on the crack growth scheme usually adopted for modelling fatigue crack growth in crack closure problems. The number of load cycles between node releases usually reported in the literature has been, in general, one or two. The present work shows that increasing the number of load cycles between node releases has a strong effect on the opening stresses, particularly, under plane strain conditions and 3D fatigue cracks, in contrast plane stress shows little variation with increasing number of load cycles. This investigation also suggests that ratchetting may take place close to the crack tip in both plane strain and 3D crack problems. The problem of discontinuous crack closure under plane strain conditions, often reported in the literature, is also addressed.