Hydrogen dissolved in metals as a result of internal and external hydrogen can affect the
mechanical properties of the metals, principally through the interactions between hydrogen …

High-strength iron-based alloys serving in hydrogen-containing environments often faces a
critical problem of hydrogen embrittlement, which involves intricate mechanisms across …

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

The effect of dispersed nanosized spherical NbC precipitates (∼ 10 nm) on the hydrogen
embrittlement (HE) of martensitic steel was investigated by slow strain rate tests, hydrogen …

In this work, the hydrogen embrittlement (HE) characteristics of 1400 MPa bolt steels with
three different vanadium contents of 0, 0.17 wt% and 0.34 wt% were evaluated. The …

Hydrogen embrittlement in metals (HE) is a serious challenge for the use of high strength
materials in engineering practice and a major barrier to the use of hydrogen for global …

Hydrogen embrittlement (HE) has become an important issue in ultra-strong automotive
steel applications. The addition of Mo to commercial 32MnB5 hot-stamping steel is preferred …

Hydrogen drastically embrittles high-strength aluminum alloys, which impedes efforts to
develop ultrastrong components in the aerospace and transportation industries …

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

In this work, the correlation between different microstructural components and hydrogen
trapping with high density in tempered niobium carbide (NbC)-precipitated martensitic steel …