Hiro Fujihara scite author profile

Hydrogen drastically embrittles high-strength aluminum alloys, which impedes efforts to develop ultrastrong components in the aerospace and transportation industries. Understanding and utilizing the interaction of hydrogen with core strengthening elements in aluminum alloys, particularly nanoprecipitates, are critical to break this bottleneck. Herein, we show that hydrogen embrittlement of aluminum alloys can be largely suppressed by switching nanoprecipitates from the η phase to the T phase without changing the overall chemical composition. The T phase strongly traps hydrogen and resists hydrogen-assisted crack growth, with a more than 60% reduction in the areal fractions of cracks. The T phase-induced reduction in the concentration of hydrogen at defects and interfaces, which facilitates crack growth, primarily contributes to the suppressed hydrogen embrittlement. Transforming precipitates into strong hydrogen traps is proven to be a potential mitigation strategy for hydrogen embrittlement in aluminum alloys.

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Influence of nanovoids in the hydrogen embrittlement fracture of Al–Zn–Mg–Cu alloys

Shimizu

Toda

Kadogawa

et al. 2020

Materialia

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Multimodal assessment of mechanically induced transformation in metastable multi‐phase steel using X‐ray nano‐tomography and pencil‐beam diffraction tomography

et al. 2022

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Hiro Fujihara

Hydrogen partitioning behavior and related hydrogen embrittlement in Al-Zn-Mg alloys

In-situ 3D observation of hydrogen-assisted particle damage behavior in 7075 Al alloy by synchrotron X-ray tomography

Switching nanoprecipitates to resist hydrogen embrittlement in high-strength aluminum alloys

Influence of nanovoids in the hydrogen embrittlement fracture of Al–Zn–Mg–Cu alloys

Multimodal assessment of mechanically induced transformation in metastable multi‐phase steel using X‐ray nano‐tomography and pencil‐beam diffraction tomography

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