In this study, the cyclic mechanical characters of 316L stainless steel at elevated
temperature are extensively investigated by the experimental and cyclic constitutive models …

In order to investigate the effect of non-proportional loading history on cyclic deformation of
316L stainless steel, a series of multiaxial cyclic experiments with variable loading path are …

High temperature low cycle fatigue tests at various strain amplitudes (±0.5%,±0.6%,±0.8%,±
1.0%) and strain rates (0.5%/s, 0.05%/s, 0.005%/s) were performed at 550° C. The stress …

Low cycle fatigue (LCF) and creep-fatigue interaction (CFI) behaviour of 316L stainless steel
at 550° C were investigated using experimental and modelling approaches. Results …

In this paper, a new approach for constitutive modeling of strain range dependent cyclic
hardening is proposed by extending the kinematic hardening model based on the critical …

A damage-coupled unified constitutive model is developed for 316LN stainless steel based
on the framework of the Abdel-Karim and Ohno model. In the modified model, a kinematic …

Cyclic behaviour prediction of materials and structures is always of great interest to industry.
In this work, total strain controlled low cycle fatigue (LCF) tests of two 316L austenitic …

A recent study by Hassan et al.[Hassan, T., Taleb, L., Krishna, S., 2008. Influences of
nonproportional loading paths on ratcheting responses and simulations by two recent cyclic …

In this study, the influence of cyclic strain amplitude on the evolution of cyclic stress–strain
response and the associated cyclic deformation mechanisms in 316LN stainless steel with …

This work reports the low cycle fatigue behavior of a wrought 316LN stainless steel under
different control modes at room temperature. Under symmetrical strain and stress cycling …