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  • 13 Similar Profiles
Steel Chemical Compounds
steels Physics & Astronomy
Hydrogen Chemical Compounds
Martensite Engineering & Materials Science
Microstructure Engineering & Materials Science
Twinning Engineering & Materials Science
Hydrogen embrittlement Engineering & Materials Science
High strength steel Engineering & Materials Science

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Research Output 1981 2019

Roll bonding
Fatigue Crack Growth
Fatigue crack propagation

An unconventional hydrogen effect that suppresses thermal formation of the hcp phase in fcc steels

Koyama, M., Hirata, K., Abe, Y., Mitsuda, A., Iikubo, S. & Tsuzaki, K., Dec 1 2018, In : Scientific reports. 8, 1, 16136.

Research output: Contribution to journalArticle

Hot Temperature
4 Citations

Comparative study of hydrogen embrittlement in stable and metastable high-entropy alloys

Ichii, K., Koyama, M., Tasan, C. C. & Tsuzaki, K., Jun 1 2018, In : Scripta Materialia. 150, p. 74-77 4 p.

Research output: Contribution to journalArticle

hydrogen embrittlement
Hydrogen embrittlement

Fatigue behavior of Fe-Cr-Ni-based metastable austenitic steels with an identical tensile strength and different solute carbon contents

Ogawa, T., Koyama, M., Nishikura, Y., Tsuzaki, K. & Noguchi, H., Oct 1 2018, In : isij international. 58, 10, p. 1910-1919 10 p.

Research output: Contribution to journalArticle

Austenitic steel
Tensile strength
Fatigue of materials
2 Citations
Austenitic steel
tensile strength
Tensile strength