| Abstract: | Successful simulation of kinetics of small fatigue crack growth entails three aspects: Stage I, Stage II growth rate prediction and transition prediction. In this paper attention is focused on growth rate predictions. By using microstructurally-affected-zone and process zone concepts, microscopic fatigue behaviour of small fatigue crack propagation is logically linked with macroscopic fatigue behaviour, showing an intrinsic relation between small fatigue crack growth and macroscopic low-cycle fatigue properties during crack growth. Furthermore, variation of relatively big plastic zone size associated with a growing small fatigue crack is kinetically simulated. As a result a quantitative prediction model of growth rates for Stage I and Stage II growth has been developed whose explicit advantage is that the growth rate of small fatigue crack can now be predicted in terms of bulk fatigue properties in conjunction with local microstructural characteristics. |
