Analysis of fatigue data for lifetime predictions for ceramic materials

Synthetic polymer biomaterials being considered for cardiovascular applications must perform under conditions of large cyclic deformations for long lifetimes. In designing with these materials and eventually qualifying them clinically, it would be extremely helpful to be able to predict the fatigue

A large amount of previously published fatigue crack growth data obtained from 10in. wide centre-cracked sheet specimens of various materials has been re-analysed in terms of the range of stress intensity factor (AK) and the results presented as master curves of crack growth rate against AK. In addi

A multiscale fatigue analysis model is developed for brittle composite materials. The mathematical homogenization theory is generalized to account for multiscale damage effects in heterogeneous media and a closed form expression relating nonlocal microphase fields to the overall strains and damage i