Advanced high-strength steels are key structural materials for the development of next-
generation energy-efficient and environmentally friendly vehicles. Medium Mn steel, as one …

To obtain a fundamental understanding of mechanisms of hydrogen embrittlement (HE) and
its prevention in advanced high-strength steels containing novel nanoscale mixed-metal …

The transition metal carbides have been known to act as traps for hydrogen in steels as well
as potential materials for hydrogen storage. Despite numerous experimental and a few …

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 …

Despite of more than two decades of research in white etching areas (WEAs), this
phenomenon still persists in wind turbine gearbox bearings leading to a reduction of L 10 …

Hydrogen embrittlement is shown to proceed through a previously unidentified mechanism.
Upon ingress to the microstructure, hydrogen promotes the formation of low-energy …

In this work, the effects of the grain boundaries (GBs) and GB carbides on the hydrogen
embrittlement (HE) of GH3536 superalloy were investigated. The GBs and (Cr, Mo)-enriched …

Hydrogen (H) embrittlement in high-strength steels can be mitigated by introducing H traps
into the microstructure. The co-precipitation model steel in this work contains intermetallic ß …

Hydrogen embrittlement (HE) behavior of tempered martensitic steels subjected to V and Mo
addition was investigated. V and Mo were added to a Base steel in two V/Mo wt.% ratios of …

This paper presents a quantification of the effect of tempering duration t TEM on hydrogen
embrittlement (HE) resistance of vanadium-added tempered martensitic steel. High-carbon …