Molecular Dynamics Simulations of Iron/Graphite Interfacial Behaviors: Influence of Oxygen

Yajun Yin; Wen Li; Hujun Shen; Jianxin Zhou; Hai Nan; Mingsen Deng; Xu Shen; Zhixin Tu

doi:10.2355/isijinternational.ISIJINT-2017-667

Ironmaking

Molecular Dynamics Simulations of Iron/Graphite Interfacial Behaviors: Influence of Oxygen

Yajun Yin, Wen Li, Hujun Shen, Jianxin Zhou , Hai Nan, Mingsen Deng, Xu Shen, Zhixin Tu

Author information

Yajun Yin
State Key Laboratory of Materials Processing and Die and Mould Technology, Huazhong University of Science and Technology
Wen Li
State Key Laboratory of Materials Processing and Die and Mould Technology, Huazhong University of Science and Technology
AVIC Beijing Institute of Aeronautical Materials
Hujun Shen
Guizhou Provincial Key Laboratory of Computational Nano-Material Science, Guizhou Education University
Jianxin Zhou Corresponding author
State Key Laboratory of Materials Processing and Die and Mould Technology, Huazhong University of Science and Technology
Hai Nan
AVIC Beijing Institute of Aeronautical Materials
Mingsen Deng
Guizhou Provincial Key Laboratory of Computational Nano-Material Science, Guizhou Education University
Xu Shen
State Key Laboratory of Materials Processing and Die and Mould Technology, Huazhong University of Science and Technology
Zhixin Tu
State Key Laboratory of Materials Processing and Die and Mould Technology, Huazhong University of Science and Technology

Keywords: molecular dynamics simulation, interfacial energy, cast iron, segregation

JOURNAL OPEN ACCESS FULL-TEXT HTML

2018 Volume 58 Issue 6 Pages 1022-1027

DOI https://doi.org/10.2355/isijinternational.ISIJINT-2017-667

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Abstract

Graphite morphology and the liquid flow behaviour in lower part of blast furnace show a close relationship to the interfacial energy between iron and graphite. In this study, molecular dynamics simulations were employed to explore the position preference of an anti-spheroidizing element (such as oxygen atom) in melt cast iron as well as its influence on the iron/graphite interfacial energy. First, our results showed that oxygen atoms were more favorably adsorbed on the prism plane of graphite than on the basal plane. Second, MD study revealed that the adsorbed oxygen atoms would influence the wettability between molten iron and graphite prism plane, leading to a significant change in interfacial energy. For instance, the interfacial energy decreased with increasing number of adsorbed oxygen atoms.

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