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Hydrogen-assisted microcrack formation in bearing steels under rolling contact fatigue

Xingzhong Liang, Guohua Zhao, Jessica M. Owens, Peng Gong, W.M. Rainforth, Pedro E.J. Rivera-Díaz-del-Castillo

2020International Journal of Fatigue20 citationsDOIOpen Access PDF

Abstract

A ball-on-rod RCF tester was employed to investigate the failure mechanisms of hydrogen-rich rolling components. The formation of defects, voids and surface cracks is significantly facilitated in hydrogen-rich bearing steels. In samples with RCF cycles of 1.6 × 107, the void density in hydrogen-rich samples is about three times that of hydrogen-free samples, whilst their crack length density four times that of hydrogen-free samples. This is due to a higher stress intensity factor around inclusions which is altered by hydrogen. Further characterisation confirms that grain boundaries are preferential sites for void formation and crack propagation.

Topics & Concepts

Void (composites)HydrogenMaterials scienceGrain boundaryMetallurgyBearing (navigation)Composite materialForensic engineeringMicrostructureChemistryGeographyEngineeringCartographyOrganic chemistryHydrogen embrittlement and corrosion behaviors in metalsMechanical stress and fatigue analysisMetal Alloys Wear and Properties
Hydrogen-assisted microcrack formation in bearing steels under rolling contact fatigue | Litcius