Due to its characteristic of low stress brittle fracture, hydrogen embrittlement (HE) is a great
challenge for the alloys exposed to hydrogen-containing environments, threatening the …

The hydrogen embrittlement behavior of two stabilized austenitic twinning-induced plasticity
(TWIP) steels under high-pressure thermal hydrogen charging and hydrogen environment …

The multiple collapse mechanisms of complex materials produced by additive
manufacturing (AM) were identified by measurements of the acoustic emission (AE) of the …

This article reviews the microstructural evolution in ultrafine-grained and nanotwinned
austenitic stainless steels that have been subjected to hydrogen embrittlement (HE) and …

The effect of the annealing temperature after cold rolling on hydrogen embrittlement
resistance was investigated with a face-centered cubic (FCC) equiatomic CoCrFeMnNi high …

The correlation between hydrogen-enhanced deformation-induced ε-martensite and
hydrogen embrittlement at two different grain sizes has been investigated in a metastable …

Hydrogen embrittlement remains a barrier to widespread adoption of hydrogen as a carbon-
neutral energy source. Here, hydrogen embrittlement mechanisms are investigated across …

To determine the cross-scale mechanism of hydrogen embrittlement, the coupling effect of
hydrogen and strain rate of 2.25 Cr1Mo0. 25V steel plastic behavior was investigated by …

Mechanistic understanding of hydrogen embrittlement is critical to the transport and storage
of hydrogen as a sustainable fuel. Experimental observation of dynamic fracture processes …

The influence of strain rate in the interval of (10− 5–10− 3) 1/s on room temperature tensile
behavior, dislocation arrangement, deformation mechanisms, and fracture of austenitic …