Repulsive nature for hydrogen incorporation to Fe3C up to 14 GPa

Hidenori Terasaki; Yuki Shibazaki; Keisuke Nishida; Ryuji Tateyama; Suguru Takahashi; Miho Ishii; Yuta Shimoyama; Eiji Ohtani; Kenichi Funakoshi; Yuji Higo

doi:10.2355/isijinternational.54.2637

Repulsive nature for hydrogen incorporation to Fe₃C up to 14 GPa

Hidenori Terasaki, Yuki Shibazaki, Keisuke Nishida, Ryuji Tateyama, Suguru Takahashi, Miho Ishii, Yuta Shimoyama, Eiji Ohtani, Kenichi Funakoshi, Yuji Higo

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

We have performed in situ X-ray diffraction measurements under high pressure and high temperature to study hydrogen solubility in Fe3C carbide. Hydrogen solubility can be estimated from a volume expansion associated with hydrogen incorporation into metal. The lattice volumes and phase relations of Fe₃C-H system and Fe₃C were measured up to 14 GPa and 1973 K. The lattice volumes of Fe₃C measured in this study are well fitted using the 3rd order Birch-Murnaghan equation of state with the reported elastic parameters of Fe₃C. Obtained lattice volumes of Fe₃C-H are quite consistent with those of Fe₃C. No difference between the melting temperatures of Fe₃C-H and Fe₃C was observed. These results demonstrate that hydrogen incorporation into Fe₃C does not occur and hydrogen is unlikely to coexist with carbon in iron-alloy up to 14 GPa.

Original language	English
Pages (from-to)	2637-2642
Number of pages	6
Journal	Isij International
Volume	54
Issue number	11
DOIs	https://doi.org/10.2355/isijinternational.54.2637
Publication status	Published - 2014

Keywords

High pressure
Hydrogen solubility
Iron carbide

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

Access to Document

10.2355/isijinternational.54.2637

Cite this

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title = "Repulsive nature for hydrogen incorporation to Fe3C up to 14 GPa",

abstract = "We have performed in situ X-ray diffraction measurements under high pressure and high temperature to study hydrogen solubility in Fe3C carbide. Hydrogen solubility can be estimated from a volume expansion associated with hydrogen incorporation into metal. The lattice volumes and phase relations of Fe3C-H system and Fe3C were measured up to 14 GPa and 1973 K. The lattice volumes of Fe3C measured in this study are well fitted using the 3rd order Birch-Murnaghan equation of state with the reported elastic parameters of Fe3C. Obtained lattice volumes of Fe3C-H are quite consistent with those of Fe3C. No difference between the melting temperatures of Fe3C-H and Fe3C was observed. These results demonstrate that hydrogen incorporation into Fe3C does not occur and hydrogen is unlikely to coexist with carbon in iron-alloy up to 14 GPa.",

keywords = "High pressure, Hydrogen solubility, Iron carbide",

author = "Hidenori Terasaki and Yuki Shibazaki and Keisuke Nishida and Ryuji Tateyama and Suguru Takahashi and Miho Ishii and Yuta Shimoyama and Eiji Ohtani and Kenichi Funakoshi and Yuji Higo",

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T1 - Repulsive nature for hydrogen incorporation to Fe3C up to 14 GPa

AU - Terasaki, Hidenori

AU - Shibazaki, Yuki

AU - Nishida, Keisuke

AU - Tateyama, Ryuji

AU - Takahashi, Suguru

AU - Ishii, Miho

AU - Shimoyama, Yuta

AU - Ohtani, Eiji

AU - Funakoshi, Kenichi

AU - Higo, Yuji

PY - 2014

Y1 - 2014

N2 - We have performed in situ X-ray diffraction measurements under high pressure and high temperature to study hydrogen solubility in Fe3C carbide. Hydrogen solubility can be estimated from a volume expansion associated with hydrogen incorporation into metal. The lattice volumes and phase relations of Fe3C-H system and Fe3C were measured up to 14 GPa and 1973 K. The lattice volumes of Fe3C measured in this study are well fitted using the 3rd order Birch-Murnaghan equation of state with the reported elastic parameters of Fe3C. Obtained lattice volumes of Fe3C-H are quite consistent with those of Fe3C. No difference between the melting temperatures of Fe3C-H and Fe3C was observed. These results demonstrate that hydrogen incorporation into Fe3C does not occur and hydrogen is unlikely to coexist with carbon in iron-alloy up to 14 GPa.

AB - We have performed in situ X-ray diffraction measurements under high pressure and high temperature to study hydrogen solubility in Fe3C carbide. Hydrogen solubility can be estimated from a volume expansion associated with hydrogen incorporation into metal. The lattice volumes and phase relations of Fe3C-H system and Fe3C were measured up to 14 GPa and 1973 K. The lattice volumes of Fe3C measured in this study are well fitted using the 3rd order Birch-Murnaghan equation of state with the reported elastic parameters of Fe3C. Obtained lattice volumes of Fe3C-H are quite consistent with those of Fe3C. No difference between the melting temperatures of Fe3C-H and Fe3C was observed. These results demonstrate that hydrogen incorporation into Fe3C does not occur and hydrogen is unlikely to coexist with carbon in iron-alloy up to 14 GPa.

KW - High pressure

KW - Hydrogen solubility

KW - Iron carbide

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