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Corrosion Mechanism and Corrosion Behavior Prediction of Cu-10ni-X Alloys in Nacl Solution Combining Dft Calculation and Experiments

32 Pages Posted: 13 Oct 2023

See all articles by Xingyu Xiao

Xingyu Xiao

University of Science and Technology Beijing

Xinhua Liu

University of Science and Technology Beijing - Key Laboratory for Advanced Materials Processing of Ministry of Education

Zhilei Wang

Nagoya University - Department of Materials Science and Engineering

Xuexu Xu

University of Science and Technology Beijing

Mingying Chen

University of Science and Technology Beijing

Jianxin Xie

University of Science and Technology Beijing - Beijing Advanced Innovation Center of Materials Genome Engineering

Abstract

The corrosion resistance of Cu-Ni-based alloys depends on their Cu2O passivation film, and the effect of third element X is hardly characterized. The corrosion behavior and mechanisms of Cu-10Ni-X (Al, Fe, Mn, Cr, Sn, Ti, Zn) alloys in a 3.5% NaCl solution were systematically investigated combining DFT calculation and experiments. Both computational and experimental results revealed that except Ti, other elements could enhance the corrosion resistance of Cu2O passivation film, and the effect was ranked as Fe > Cr > Mn > Al > Sn > Zn. Based on DFT and experimental data, a corrosion behavior prediction model was established.

Keywords: Cu-Ni-based alloys, Corrosion mechanism, Corrosion behavior prediction, DFT calculation

Suggested Citation

Xiao, Xingyu and Liu, Xinhua and Wang, Zhilei and Xu, Xuexu and Chen, Mingying and Xie, Jianxin, Corrosion Mechanism and Corrosion Behavior Prediction of Cu-10ni-X Alloys in Nacl Solution Combining Dft Calculation and Experiments. Available at SSRN: https://ssrn.com/abstract=4601094 or http://dx.doi.org/10.2139/ssrn.4601094

Xingyu Xiao

University of Science and Technology Beijing ( email )

30 Xueyuan Road, Haidian District
beijing, 100083
China

Xinhua Liu

University of Science and Technology Beijing - Key Laboratory for Advanced Materials Processing of Ministry of Education ( email )

Zhilei Wang

Nagoya University - Department of Materials Science and Engineering ( email )

Japan

Xuexu Xu

University of Science and Technology Beijing ( email )

Mingying Chen

University of Science and Technology Beijing ( email )

30 Xueyuan Road, Haidian District
beijing, 100083
China

Jianxin Xie (Contact Author)

University of Science and Technology Beijing - Beijing Advanced Innovation Center of Materials Genome Engineering ( email )

Beijing
China

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