On the calculation of plastic energy dissipation rate during stable crack growth

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

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

A general method is given for calculating the energy release rate G from the local values of bending moments and loads in a cracked laminate. This total value is then partitioned into mode I and II components. Examples are given of the analysis of several test geometries including both variable and

Nuismer [1] derived an expression for the energy release rate G for mixed mode fracture in which case the initial angle of crack extension is not equal to zero, i.e. the crack extends in a non-self-similar manner. He developed a generalized relation in which G depends not only on the stress state be

The Bilby, Cottrell and Swinden crack theory is applied to the problem of the growth of fatigue cracks. It is found that if a total critical displacement is adopted as the fracture criterion, the theory leads to observed growth laws. \* Based upon paper presented at the International Conference on F