Effect of mixed partial occupation of metal sites on the phase stability of γ-Cr23- x Fe x C6 (x = 0-3) carbides

Maaouia Souissi; Marcel H.F. Sluiter; Tetsuya Matsunaga; Masaaki Tabuchi; Michael J. Mills; Ryoji Sahara

doi:10.1038/s41598-018-25642-y

Effect of mixed partial occupation of metal sites on the phase stability of γ-Cr_{23- x} Fe _x C₆ (x = 0-3) carbides

Maaouia Souissi, Marcel H.F. Sluiter, Tetsuya Matsunaga, Masaaki Tabuchi, Michael J. Mills, Ryoji Sahara

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

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Abstract

The effect of mixed partial occupation of metal sites on the phase stability of the γ-Cr_23-x Fe _x C₆ (x = 0-3) carbides is explored as function of composition and temperature. Ab initio calculations combined with statistical thermodynamics approaches reveal that the site occupation of the carbides may be incorrectly predicted when only the commonly used approach of full sublattice occupation is considered. We found that the γ-M₂₃C₆ structure can be understood as a familiar sodium chloride structure with positively charged rhombic dodecahedron (M^(4a) M₁₂ ^(48h)) and negatively charged cubo-octahedron (M₈ ^(32f) C₆ ^(24e)) super-ion clusters, together with interstitial metal atoms at the 8c sites. The stability of the partially occupied phase can be easily rationalized on the basis of a super-ion analysis of the carbide phase. This new understanding of γ-M₂₃C₆ carbides may facilitate further development of high-chromium heat-resistant steels.

Original language	English
Article number	7279
Journal	Scientific reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-25642-y
Publication status	Published - 2018 Dec 1
Externally published	Yes

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title = "Effect of mixed partial occupation of metal sites on the phase stability of γ-Cr23- x Fe x C6 (x = 0-3) carbides",

abstract = "The effect of mixed partial occupation of metal sites on the phase stability of the γ-Cr23-x Fe x C6 (x = 0-3) carbides is explored as function of composition and temperature. Ab initio calculations combined with statistical thermodynamics approaches reveal that the site occupation of the carbides may be incorrectly predicted when only the commonly used approach of full sublattice occupation is considered. We found that the γ-M23C6 structure can be understood as a familiar sodium chloride structure with positively charged rhombic dodecahedron (M(4a) M12 (48h)) and negatively charged cubo-octahedron (M8 (32f) C6 (24e)) super-ion clusters, together with interstitial metal atoms at the 8c sites. The stability of the partially occupied phase can be easily rationalized on the basis of a super-ion analysis of the carbide phase. This new understanding of γ-M23C6 carbides may facilitate further development of high-chromium heat-resistant steels.",

author = "Maaouia Souissi and Sluiter, {Marcel H.F.} and Tetsuya Matsunaga and Masaaki Tabuchi and Mills, {Michael J.} and Ryoji Sahara",

note = "Funding Information: This work is partially supported by JSPS KAKENHI Grant Number 15H04117. We gratefully acknowledge the support of the staff of the Numerical Materials Simulator at the National Institute for Materials Science (NIMS) for providing the computational resources. The authors are also grateful to Professor Hiroshi Numakura (Osaka Prefecture University) for useful comments and enlightening discussions. Publisher Copyright: {\textcopyright} 2018 The Author(s).",

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doi = "10.1038/s41598-018-25642-y",

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AU - Souissi, Maaouia

AU - Sluiter, Marcel H.F.

AU - Matsunaga, Tetsuya

AU - Tabuchi, Masaaki

AU - Mills, Michael J.

AU - Sahara, Ryoji

N1 - Funding Information: This work is partially supported by JSPS KAKENHI Grant Number 15H04117. We gratefully acknowledge the support of the staff of the Numerical Materials Simulator at the National Institute for Materials Science (NIMS) for providing the computational resources. The authors are also grateful to Professor Hiroshi Numakura (Osaka Prefecture University) for useful comments and enlightening discussions. Publisher Copyright: © 2018 The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - The effect of mixed partial occupation of metal sites on the phase stability of the γ-Cr23-x Fe x C6 (x = 0-3) carbides is explored as function of composition and temperature. Ab initio calculations combined with statistical thermodynamics approaches reveal that the site occupation of the carbides may be incorrectly predicted when only the commonly used approach of full sublattice occupation is considered. We found that the γ-M23C6 structure can be understood as a familiar sodium chloride structure with positively charged rhombic dodecahedron (M(4a) M12 (48h)) and negatively charged cubo-octahedron (M8 (32f) C6 (24e)) super-ion clusters, together with interstitial metal atoms at the 8c sites. The stability of the partially occupied phase can be easily rationalized on the basis of a super-ion analysis of the carbide phase. This new understanding of γ-M23C6 carbides may facilitate further development of high-chromium heat-resistant steels.

AB - The effect of mixed partial occupation of metal sites on the phase stability of the γ-Cr23-x Fe x C6 (x = 0-3) carbides is explored as function of composition and temperature. Ab initio calculations combined with statistical thermodynamics approaches reveal that the site occupation of the carbides may be incorrectly predicted when only the commonly used approach of full sublattice occupation is considered. We found that the γ-M23C6 structure can be understood as a familiar sodium chloride structure with positively charged rhombic dodecahedron (M(4a) M12 (48h)) and negatively charged cubo-octahedron (M8 (32f) C6 (24e)) super-ion clusters, together with interstitial metal atoms at the 8c sites. The stability of the partially occupied phase can be easily rationalized on the basis of a super-ion analysis of the carbide phase. This new understanding of γ-M23C6 carbides may facilitate further development of high-chromium heat-resistant steels.

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Effect of mixed partial occupation of metal sites on the phase stability of γ-Cr_{23- x} Fe _x C₆ (x = 0-3) carbides

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