Ductile rupture in metals is a phenomenon that affects a wide range of applications from
forming of automotive body panels to failure of pressure vessels. The incipient stage …

Hydrogen embrittlement is a complex phenomenon, involving several length-and
timescales, that affects a large class of metals. It can significantly reduce the ductility and …

Recent studies on hydrogen enhancement of the strain-induced generation of vacancies, ie
the HESIV mechanism, and its role in hydrogen embrittlement (HE) of steels are overviewed …

Mechanisms of hydrogen embrittlement in steels and other materials are described, and the
evidence supporting various hypotheses, such as those based on hydride formation …

Hydrogen embrittlement or degradation of mechanical properties by hydrogen is a latent
problem for structural materials. The problem is serious particularly for highstrength steels …

We present a mechanistic theory for predicting void evolution in the Li metal electrode
during the charge and discharge of all-solid-state battery cells. A phase field formulation is …

While hydrogen embrittlement of ferritic steels has been a subject of significant research,
one of the major challenges in tackling hydrogen embrittlement is that the mechanism of …

We investigated hydrogen embrittlement in Ni-based superalloy 718 by tensile testing at
slow strain rate (10− 4 s− 1) under continuous electrochemical hydrogen charging …

Atomistic simulations of the effects of H on edge dislocation mobility and pile-ups are
performed to investigate possible nanoscale mechanisms for hydrogen-enhanced localized …

Laser shock experiments conducted at an energy density of 61 MJ/m2 revealed void
initiation and growth at stress application times of approximately 10 ns. It is shown that void …