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Pressure dependence of CO2 effect on hydrogen-assisted fatigue crack growth in two pipeline steels

Juan Shang, Shuanghe Chi, Ruizhe Gao, Baihui Xing, Aleksander Staykov, Zhengli Hua

2024International Journal of Hydrogen Energy20 citationsDOIOpen Access PDF

Abstract

This study investigated the pressure-dependent CO 2 effect on the hydrogen embrittlement of X80 and GB20# pipeline steels by combining experiments and first-principles calculations. Results revealed that the CO 2 effect enhanced the fatigue crack growth for GB20# steel in 10 MPa CO₂-enriched hydrogen mixtures. However, the improved degree by the CO₂ effect at 10 MPa was less pronounced than at 0.4 MPa, which was found for the first time. This was attributed to the decreased adsorption rate of CO₂ on iron as hydrogen pressure increased. Therefore, in high-pressure CO₂-enriched hydrogen mixtures, CO 2 could not significantly accelerate the inherent rapid hydrogen uptake at high pressure. • Enhanced hydrogen embrittlement by CO 2 effect was pressure-dependent. • CO 2 effect at low pressure was more pronounced than that at high pressure. • CO 2 adsorption rate on iron decreased with increasing surface hydrogen coverage.

Topics & Concepts

Pipeline (software)Paris' lawMaterials scienceHydrogenMetallurgyComposite materialChemistryFracture mechanicsCrack closureEngineeringMechanical engineeringOrganic chemistryHydrogen embrittlement and corrosion behaviors in metalsMaterial Properties and Failure MechanismsFatigue and fracture mechanics
Pressure dependence of CO2 effect on hydrogen-assisted fatigue crack growth in two pipeline steels | Litcius