Notch and hold-time effects on low cycle fatigue life of SS-304 plate specimens at 600°C

A study of the notch and frequency effects on fatigue life at high temperature is carried out using notched and unnotched plate specimens of SS 304 under stress-controlled testing conditions. Analysis of the σ-N, results obtained at 600°C under fatigue and creep-fatigue conditions allowed the generalization of the σN_f-K_t relationship proposed in an earlier study. Examinations of the experimental data with hold-time testing suggested that in these conditions, the frequency effect should be incorporated in the relationship. Results obtained from the modified relation are in agreement with the experimental data. Finite element analysis was carried out to determine the stress-strain state at the notch root by simulating three complete creep-fatigue cycles. The computed results indicated that, under zero-to-tension cyclic loading with controlled nominal stress, the maximum local stress at the notch root relaxes; this results in a minimum local stress in compression upon unloading; as a consequence, the mean local stress is significantly reduced from one cycle to another. The stress relaxation as well as the creep strain cumulation were found to occur only in the vicinity of the notch (within 0.5 mm). The numerical results concerning the local stress relaxation and the time dependent strain cumulation are used to explain the notch strengthening effect on life observed in the present study.