Fatigue and ratcheting interactions

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

Based on the experimental results, a uniaxial stress-based fatigue failure model was first proposed to predict the fatigue life by addressing uniaxial ratchetting-fatigue interaction. In the uniaxial model, the fatigue and ratchetting damages were reflected by axial stress amplitude and maximum axia

The multiaxial ratchetting and low-cycle fatigue failure behaviour, i.e., the multiaxial ratchetting-fatigue interactions of annealed and tempered 42CrMo steels were experimentally observed under the proportionally and non-proportionally multiaxial stress-controlled (and strain-controlled) cyclic lo

Railway rails accumulate severe plastic deformation at the surface as a result of loading by passing wheels. This process of plastic strain accumulation is plastic ratcheting. Ratcheting failure occurs when material accumulates a critical strain and failed material produces wear debris and rolling c