Creep crack growth under history-dependent loading

Plastic deformation within the crack tip region introduces internal stresses that modify subsequent behaviour of the crack and are at the origin of history effects in fatigue crack growth. Consequently, fatigue crack growth models should include plasticity-induced history effects. A model was develo

Two different constitutive models are employed to describe creep crack growth under small-scale creep conditions theoretically. The first model combines elastic/nonlinear viscous deformation fields (8 = (r/E + Aa ~) with a critical-strain criterion, e = e,, to be satisfied at a structural distance x

An experimental technique is developed whereby a personal computer is used to control a hydraulic servo-pulser testing machine and generate random loads for loading a fracture specimen. Thus giving a control over random load generation and hence random load history. This allows for the generation of

It has been found that the mode I fatigue crack growth rate is affected by the transverse stress o 2 (see Fig. i), although only a limited amount of experimental results are available in the literature [1,2]. However, an attempt to interpret this kind of behavior in crack growth rate under biaxial l