Banded ferrite–pearlite X65 pipeline steel was tested in high pressure hydrogen gas to
evaluate the effects of oriented pearlite on hydrogen assisted fatigue crack growth. Test …

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

Gaseous hydrogen is a convenient medium to store and transport energy. As existing
petroleum-based platforms are electrified, such as with the growth of fuel cell systems …

Hydrogen pipeline systems offer an economical means of storing and transporting energy in
the form of hydrogen gas. Pipelines can be used to transport hydrogen that has been …

This work proposes a phenomenological fatigue crack propagation (FCP) model for API-5L
X100 pipeline steel exposed to high-pressure gaseous hydrogen. The semi-empirical model …

This paper presents a new mechanism controlling the acceleration of fatigue crack growth of
a hydrogen-charged high-strength steel (bearing steel SAE52100, σ ult> 1, 900MPa, HV …

The effects of hydrogen on crack growth rates in a moderate-strength pipeline steel
subjected to cyclic loads were studied. Fatigue crack growth experiments were conducted in …

Hydrogen has been proposed as a potential partial solution to the need for a clean-energy
economy. In order to make this a reality, large-scale hydrogen transportation networks need …

Hydrogen-assisted fatigue crack growth in gaseous environment was comparatively
examined at room temperature (RT) and 423 K, based on analysis of the deformation …

The low-cycle fatigue and fatigue crack growth (FCG) properties of X80 pipeline steel in
hydrogen atmosphere were determined to investigate the variation of hydrogen pressure …