The development of reliable and longevous infrastructures and structural components is the
key for the implementation of a hydrogen economy that is currently enjoying unprecedented …

There have been several reviews and numerous papers on hydrogen-embrittlement
phenomena and mechanisms in the past few years, but long-standing controversies …

Dense intragranular distribution of nanoscale reinforcements is highly desirable since it is
effective in reconciling the strength-ductility trade-off in Al matrix composites (AMCs). Herein …

The high-strength 7xxx series aluminium alloys can fulfil the need for light, high strength
materials necessary to reduce carbon-emissions, and are extensively used in aerospace for …

The effect of gradient nanostructure prepared by ultrasonic surface rolling on stress
corrosion behavior of 7075-T6 aluminum alloy was studied. Results showed that gradient …

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

Hydrogen repartitioning and the related embrittlement behavior were characterized by
studying Al–Zn–Mg–Cu aluminum alloys with different intermetallic particle contents. Using …

Fatigue crack growth rate (FCGR) tests were used to investigate the fatigue property of low-
carbon steel in actual natural gas/hydrogen mixtures and carbon dioxide/hydrogen/nitrogen …

We directly captured, classified, and evaluated 3D particle debonding and fracture behavior
in a H-charged 7075 Al alloy throughout the entire tensile deformation using synchrotron X …

Aluminium alloys are re-evaluated as most feasible way to satisfy the industrial needs of
light-weight structural materials. However, unlike conventional structural metals such as iron …