Hydrogen gas pressure is an important test parameter when considering materials for high-
pressure hydrogen applications. A large set of data on the effect of hydrogen gas pressure …

Hydrogen is considered a clean and efficient energy carrier crucial for shaping the net-zero
future. Large-scale production, transportation, storage, and use of green hydrogen are …

We present a new theoretical and numerical phase field-based formulation for predicting
hydrogen-assisted fatigue. The coupled deformation-diffusion-damage model presented …

We demonstrate that modifying the cellular structures by well-controlled annealing can
effectively improve the hydrogen embrittlement (HE) resistance of selective laser melting …

In this work, microstructural and mechanical response to hydrogen were investigated for
CoCrFeMnNi high-entropy alloy (HEA) additively manufactured by selective laser melting …

Fatigue crack growth of two carbon steels with different pearlite volume fractions were
studied in pressurized gaseous hydrogen environment. Notably, pearlite was found to …

Regarding hydrogen embrittlement (HE) in the mixtures of hydrogen and inert gas, the
results were understood mainly based on the partial hydrogen gas pressure. On the other …

We investigate the influence of microstructural traps in hydrogen-assisted fatigue crack
growth. To this end, a new formulation combining multi-trap stress-assisted diffusion …

The rapid development of hydrogen energy requires the use of natural gas infrastructure for
hydrogen transportation. It is very important to study hydrogen-added natural gas …

In this work, the hydrogen fatigue of pipeline steel X60, its girth welds and weld defects were
investigated through in situ fatigue testing. A novel in situ gaseous hydrogen charging …