Cumulative damage evaluation in multiple cycle fatigue tests taking into account energy parameters

This work reports fatigue stress test results for AISI 304 steel (R = −1) that has been subjected to a high cycle number. It shows that the energetic effect (employing different temperature increments for equal loading of uniaxial stress) can be used to evaluate the cumulative damage caused by any prior loading. Various load histories were applied to AISI 304 specimens, and the resulting damage was evaluated in reference to the energy factor, Φ, which is dependent on the maximum temperature at the sample surface when irreversible plastic deformation begins. The time curves (Wöhler curves) and the damage ratio based on the consumed energy were compared to those obtained according to Palmgren–Miner rules; this comparison served to show how under-evaluations can occur with high damage ratios.

► The paper reports the fatigue test for AISI 304 subjected to high cycle number. ► The paper shows the energetic effect as a different temperature increments. ► The energetic effect evaluates the cumulative damage caused by previous loading. ► The experimental tests confirm linear damage model.