The effect of hydrogen on fatigue crack growth behavior of three stainless steels has been
investigated from the viewpoint of microscopic fatigue mechanisms, martensitic …

As medium-strength steels are promising candidates for the hydrogen economy, it is
important to understand their interaction with hydrogen. However, there are only a limited …

The present study focuses on the low cycle fatigue (LCF) behavior of strain-hardened 316L
stainless steel under plastic strain control, aiming to understand the influence of internal …

The critical charging current densities and times are investigated to determine the dominant
hydrogen effect on 2205 duplex stainless steel, and the corresponding hydrogen …

This study investigated the effects of hydrostatic compressive stress in retained austenite
(RA) on mechanical properties and hydrogen embrittlement (HE) of the martensitic steels. It …

To study the influence of hydrogen on the fatigue strength of AISI type 304 metastable
austenitic stainless steel, specimens were cathodically charged with hydrogen. Using …

Fatigue crack growth tests were performed to assess the fatigue behavior of AISI 316L and
254 SMO stainless steels (SSs) in air and gaseous hydrogen. 254 SMO SS generally …

This study investigates the cyclic plastic deformation and microstructural evolution of
hydrogen-charged 316L stainless steel. The results of low-cycle fatigue tests indicate that …

Hydrogen-induced cracking or embrittlement can have a substantial and severe impact on
the fatigue life of large austenitic stainless steel hydrogen storage pressure vessels. In this …

High-cycle fatigue performance is one of the crucial issues for hydrogen diaphragm
compressors, as hydrogen embrittlement affects the components in a high pressure …