Enhancing tribocorrosion resistance of VCoNi alloys in artificial seawater via nitrogen alloying

Zhichao Jiao; Yifei Dong; Qikang Li; Qing Zhou; Shuai Han; Cunhong Yin; Zhiyuan Huang; Xianzong Wang; Haifeng Wang; Weimin Liu

doi:10.1016/j.corsci.2024.112600

Enhancing tribocorrosion resistance of VCoNi alloys in artificial seawater via nitrogen alloying

Zhichao Jiao, Yifei Dong, Qikang Li, Qing Zhou, Shuai Han, Cunhong Yin, Zhiyuan Huang, Xianzong Wang, Haifeng Wang, Weimin Liu

School of Materials Sience and Engineering

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

35 Scopus citations

Abstract

The demand for tribocorrosion-resistant equipment has driven extensive research into advanced materials. Utilizing electrochemical measurements and density-functional theory (DFT) calculations, this study systematically elucidates nitrogen alloying's role in enhancing tribocorrosion resistance of VCoNi MPEAs in artificial seawater. The results demonstrate that increasing N enhances VCoNiN's tribocorrosion performance due to stronger nitrogen-metal bonding, which leads to a decrease in the electronic work function, and competitive adsorption between O and Cl. Specifically, N-alloying strengthens O bonding while reducing the detrimental effects of Cl adsorption. This work provides novel insights into optimizing the tribocorrosion resistance of MPEAs by clarifying the critical role of N in modifying the electronic structure.

Original language	English
Article number	112600
Journal	Corrosion Science
Volume	243
DOIs	https://doi.org/10.1016/j.corsci.2024.112600
State	Published - Feb 2025

Keywords

DFT calculation
Multi-principal element alloy
Nitride film
Tribocorrosion

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10.1016/j.corsci.2024.112600

Cite this

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title = "Enhancing tribocorrosion resistance of VCoNi alloys in artificial seawater via nitrogen alloying",

abstract = "The demand for tribocorrosion-resistant equipment has driven extensive research into advanced materials. Utilizing electrochemical measurements and density-functional theory (DFT) calculations, this study systematically elucidates nitrogen alloying's role in enhancing tribocorrosion resistance of VCoNi MPEAs in artificial seawater. The results demonstrate that increasing N enhances VCoNiN's tribocorrosion performance due to stronger nitrogen-metal bonding, which leads to a decrease in the electronic work function, and competitive adsorption between O and Cl. Specifically, N-alloying strengthens O bonding while reducing the detrimental effects of Cl adsorption. This work provides novel insights into optimizing the tribocorrosion resistance of MPEAs by clarifying the critical role of N in modifying the electronic structure.",

keywords = "DFT calculation, Multi-principal element alloy, Nitride film, Tribocorrosion",

author = "Zhichao Jiao and Yifei Dong and Qikang Li and Qing Zhou and Shuai Han and Cunhong Yin and Zhiyuan Huang and Xianzong Wang and Haifeng Wang and Weimin Liu",

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year = "2025",

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doi = "10.1016/j.corsci.2024.112600",

language = "英语",

volume = "243",

journal = "Corrosion Science",

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TY - JOUR

T1 - Enhancing tribocorrosion resistance of VCoNi alloys in artificial seawater via nitrogen alloying

AU - Jiao, Zhichao

AU - Dong, Yifei

AU - Li, Qikang

AU - Zhou, Qing

AU - Han, Shuai

AU - Yin, Cunhong

AU - Huang, Zhiyuan

AU - Wang, Xianzong

AU - Wang, Haifeng

AU - Liu, Weimin

PY - 2025/2

Y1 - 2025/2

N2 - The demand for tribocorrosion-resistant equipment has driven extensive research into advanced materials. Utilizing electrochemical measurements and density-functional theory (DFT) calculations, this study systematically elucidates nitrogen alloying's role in enhancing tribocorrosion resistance of VCoNi MPEAs in artificial seawater. The results demonstrate that increasing N enhances VCoNiN's tribocorrosion performance due to stronger nitrogen-metal bonding, which leads to a decrease in the electronic work function, and competitive adsorption between O and Cl. Specifically, N-alloying strengthens O bonding while reducing the detrimental effects of Cl adsorption. This work provides novel insights into optimizing the tribocorrosion resistance of MPEAs by clarifying the critical role of N in modifying the electronic structure.

AB - The demand for tribocorrosion-resistant equipment has driven extensive research into advanced materials. Utilizing electrochemical measurements and density-functional theory (DFT) calculations, this study systematically elucidates nitrogen alloying's role in enhancing tribocorrosion resistance of VCoNi MPEAs in artificial seawater. The results demonstrate that increasing N enhances VCoNiN's tribocorrosion performance due to stronger nitrogen-metal bonding, which leads to a decrease in the electronic work function, and competitive adsorption between O and Cl. Specifically, N-alloying strengthens O bonding while reducing the detrimental effects of Cl adsorption. This work provides novel insights into optimizing the tribocorrosion resistance of MPEAs by clarifying the critical role of N in modifying the electronic structure.

KW - DFT calculation

KW - Multi-principal element alloy

KW - Nitride film

KW - Tribocorrosion

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U2 - 10.1016/j.corsci.2024.112600

DO - 10.1016/j.corsci.2024.112600

M3 - 文章

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SN - 0010-938X

VL - 243

JO - Corrosion Science

JF - Corrosion Science

M1 - 112600

ER -

Enhancing tribocorrosion resistance of VCoNi alloys in artificial seawater via nitrogen alloying

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Keywords

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