TY - EJOU AU - Wang, Jie AU - Jiang, Wei AU - Wang, Qi TI - Numerical Simulation and Experimental Studies on Elastic-Plastic Fatigue Crack Growth T2 - Computer Modeling in Engineering \& Sciences PY - 2019 VL - 118 IS - 2 SN - 1526-1506 AB - A elastic-plastic fatigue crack growth (FCG) finite element model was developed for predicting crack growth rate under cyclic load. The propagation criterion for this model was established based on plastically dissipated energy. The crack growth simulation under cyclic computation was implemented through the ABAQUS scripting interface. The predictions of this model are in good agreement with the results of crack propagation experiment of compact tension specimen made of 304 stainless steel. Based on the proposed model, the single peak overload retardation effect of elastic-plastic fatigue crack was analyzed. The results shows that the single peak overload will reduce the accumulation rate of plastic energy dissipation of elements at crack tip plastic zone, so that crack growth will be arrested. The crack growth rate will not recover until the crack tip exceed the affected region. Meanwhile, the crack growth rate is mainly determined by the amplitude rather than the mean load under the condition of small scale yielding. The proposed model would be helpful for predicting the growth rate of mode I elastic-plastic fatigue crack. KW - Plastic dissipation energy KW - elastic-plastic fatigue crack KW - finite element model KW - crack growth rate DO - 10.31614/cmes.2019.01836