Michihiro Niwa scite author profile

This study investigated the hydrogen embrittlement (HE) cracking behavior produced by local contact loading of high-strength steel. When a spherical impression was applied to a hydrogen-absorbed high-strength steel, HE induces contact fracture, where radial cracks are initiated and propagated from the indentation impression. The length of the radial crack was found to be dependent on the hydrogen content in the steel as well as the applied contact force. A combined experimental/computational investigation was conducted in order to clarify the mechanism of hydrogen-induced contact fracture. In the computation, crack propagation was simulated using a cohesive zone model (CZM) in finite element method (FEM), in order to elucidate stress criterion of the present HE crack. It was found that the normal tensile stress was developed around impression, and it initiated and propagated the HE crack. It was also revealed that the hydrogen content enhanced contact fracture damage, especially the resistance of crack propagation (i.e., threshold stress intensity factor, Kth). The findings may be useful for countermeasure of contact fracture coupled with hydrogen in high-strength steel. Such phenomenon is potentially experienced in various contact components in hydrogen environment.

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G031073 Fracture Mechanism of Hard Plating subjected to Contact Loading

Niwa

Yonezu²

2013

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Michihiro Niwa

Contact fracture mechanism of electroplated Ni–P coating upon stainless steel substrate

Mechanism of hydrogen embrittlement cracking produced by residual stress from indentation impression

Failure assessment of a hard brittle coating on a ductile substrate subjected to cyclic contact loading

Characterization of Hydrogen-Induced Contact Fracture in High-Strength Steel

G031073 Fracture Mechanism of Hard Plating subjected to Contact Loading

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