Component failures due to the hydrogen embrittlement (HE) were observed in different
industrial systems, including high-pressure hydrogen storage tanks, aircraft components …

Hydrogen embrittlement (HE) of steels is extremely interesting topic in many industrial
applications, while a predictive physical model still does not exist. A number of studies …

Hydrogen-induced ductility loss and related fracture morphologies are comprehensively
discussed in consideration of the hydrogen distribution in a specimen with external and …

Hydrogen gas is a renewable energy source for electrical and transportation fuel for
vehicular applications. However, the storage and transportation of hydrogen gas are …

This work presents a novel strategy to model the coexistence of HELP & HEDE mechanisms.
The proposed method accounts for ductile and brittle damage with a competitive fracture …

The effect of hydrogen on the microdamage evolution of 1200M advanced high-strength
steel was evaluated by the combination of experimental and numerical approaches. In the …

Hydrogen embrittlement of lath martenistic steels is characterized by intergranular and
“quasi-cleavage” transgranular fracture. Recent transmission electron microscopy (TEM) …

Hydrogen embrittlement (HE) is one of the most dangerous yet most elusive embrittlement
problems in metallic materials. Advanced high-strength steels (AHSS) are particularly prone …

The fatigue life estimation of metals operating in hydrogen-rich environments such as
hydrogen pipelines, hydrogen-burning internal combustion engines, etc. is important …

Historically, there have been a half-dozen hydrogen induced degradation models proposed.
A few of these have since been rejected but the remaining ones can be categorized into two …