Over the last 50 years, many researchers have contributed significantly towards
understanding the Masing/non‐Masing behavior of materials. However, there has been no …

Low-cycle fatigue tests were conducted at 650° C to investigate the cyclic deformation
behavior and damage mechanism of 316H stainless steel at various strain amplitudes …

In the present work, low cycle fatigue (LCF) behavior of an equiatomic CoCrFeMnNi high
entropy alloy (HEA) is correlated to the microstructural evolution at 550° C. The fully …

To investigate the low cycle fatigue (LCF) properties of SLM (Selective laser melting) 316L at
550° C high temperature, a series of LCF tests at different strain amplitudes is conducted on …

The low-cycle fatigue life of 316 stainless steel is a significant basis for safety assessment.
Usually, many factors affect the low-cycle fatigue life of stainless steel, and the relationship …

Abstract Butt joints of Ti-6Al-4V plates were produced by electron beam welding process
using both oscillating and non-oscillating beams. The joints were then inspected using X-ray …

The alteration of material tensile properties is inevitable after material subjects to irreversible
damage. This paper is devoted to quantify the influence of pre-fatigue damage on the …

Thermomechanical fatigue tests were performed on austenitic stainless steel in the
temperature range of 250–400° C. Results show that the increase in strain amplitude …

This study investigates the relationship between the microstructural evolution and low cycle
fatigue behavior of 316H austenitic steel to understand its performance at 550° C in …

Cyclic deformation response of an austenitic Ni-based alloy was investigated by
symmetrical/asymmetrical strain cycling tests at room temperature (RT) and 350° C. The …