Effect of structural damage on energy dissipation in stable crack propagation

Creep energy dissipation (CED) due to crack tip creep zone is determined under steady state conditions for centre cracked thin specimen of 1.25CrOSMo steel, with different widths and crack length to width ratios. The creep energy rate increases when the increment in crack length Au increases and the

The plastic energy dissipation was determined in the centre cracked thin sheet specimen of 2024-T3 aluminium alloy, with different widths and crack length to width ratios. The plastic energy dissipation rate was found to be linearly related to the stable crack growth, but the slope decreased signifi

## Abstract In this paper we examine a conventional approach to correlate the fatigue crack growth rate with fracture mechanics parameters such as stress intensity factor or elastic energy release rate. To simulate a complex loading history we grow a fatigue crack in a vicinity of a hole in a singl

The problem of propagating crack characterization is examined for a case of a stochastic brittle medium. Crack-damage interaction and its influence on fracture kinetics are accounted for by means of continuum damage mechanics and stochastic values of stress intensity factor. The two-dimensional prob