A multiaxial stress-based fatigue failure model considering ratchetting–fatigue interaction

Based on the experimental results of uniaxial ratchetting-fatigue interaction obtained at room temperature for the materials presenting different cyclic softening/hardening features [Kang GZ, Liu YJ, Li Z. Experimental study on ratchetting-fatigue interaction of SS304 stainless steel in uniaxial cyc

An endurance criterion is proposed which aims at capitalizing the advantages of both fracture mechanics and of energetic or stressbased approaches. As a matter of fact, fracture mechanics based approaches allow building probabilistic criterions by introducing the statistic distributions of defects s

In this paper, a unified time dependent model for low cycle fatigue and ratchetting failure has been developed based on the microcrack growth. The model utilized fracture mechanics theory using J-integral under creep-fatigue loading and assumed that the microcrack propagation determines the failure

This paper summarises an attempt to propose a novel stress invariant based approach suitable for estimating fatigue damage in the presence of complex multiaxial fatigue loadings. In more detail, according to the devised method, fatigue damage is evaluated by studying the components of the deviator p