Hydrogen embrittlement is a widely known phenomenon in high-strength and storage
materials. Hydrogen embrittlement is responsible for subcritical crack growth in material …

This article reviews original work and important new developments in the field of
deformation behavior of high manganese face-centered cubic γ-Fe alloys. Owing to their …

The core-shell structure precipitatates of Fe-xCu-3.0 Mn-1.5 Ni-1.5 Al alloys under internal
and external strain was investigated by using a multicomponent continuous phase field …

Indentation of key microstructure factors affecting hydrogen embrittlement (HE) of duplex
stainless steel (DSS) is fundamental for regulating the HE resistance. This study investigated …

Hydrogen embrittlement (HE) has arisen as one of main issues for developing high-strength
lightweight steels. The precipitation of fine particles providing as stable H-trapping sites is …

High-strength materials usually exhibit low ductility, particularly in the presence of hydrogen
embrittlement phenomena. In this study, three strategies are combined to achieve excellent …

The effects of tensile strain rate on the hydrogen-induced mechanical and microstructural
features of a twinning-induced plasticity (TWIP) steel were investigated using a Fe-23Mn-0.5 …

The influence of strain rate (10− 3≤ ε˙≤ 10− 5 s− 1) on hydrogen embrittlement behavior of
Fe− 17Mn− 0.8 C (wt.%) TWIP steel was investigated. Two types of specimens were tested; …

This study investigates the ductility loss of a hydrogen-charged 2205 duplex stainless steel
at various test temperatures. The initiation and propagation of hydrogen-induced …

The hydrogen embrittlement (HE) behavior on a Fe–22Mn-0.6 C twinning-induced plasticity
(TWIP) steel was investigated by tensile tests with in-situ scanning electron microscope …