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 …

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 …

The austenitic heat‐resistant steels are significant materials used in boilers and nuclear
reactors, owing to the excellent creep, fatigue, corrosion resistance, and mechanical …

Wire arc additive manufacturing (WAAM) with many superior characteristics, such as high
deposition rate, low cost, free shape, and environmental friendliness has attracted much …

Abstract Effects of strain amplitude on the isothermal fatigue (IF) and thermomechanical
fatigue (TMF) behaviors of 316LN stainless steel were comparatively studied. The physical …

Thermomechanical fatigue (TMF) behaviour of 316L is investigated based on the internal
stress and microstructural characterization at various cyclic stages. Results reveal that the …

Isothermal fatigue (IF) tests at 250° C, 350° C and 450° C, and thermomechanical fatigue
(TMF) tests of 316LN stainless steel within the temperature range of 250–450° C under in …

In-phase and out-of-phase thermomechanical fatigue (TMF) tests in the temperature range
of 200–400° C and isothermal fatigue (IF) tests at 400° C were conducted to investigate …

This work studied the uniaxial, torsional and multiaxial low cycle fatigue behavior of 316LN
stainless steel at 550° C. Results show that the normalized kernel average misorientation …

Continuous and interrupted LCF tests were conducted to reveal the effects of temperature,
strain rate and strain amplitude on the LCF behavior of a nitrogen-alloyed 316LN stainless …