Effects of Ni content on microstructure and performance of MAO coatings on binary Al–Ni alloys

Effects of Ni content on microstructure and performance of MAO coatings on binary Al–Ni alloys

In this study, the pure Al and binary Al–Ni alloys with Ni addition of 1, 3, 6, and 10 wt % were coated via micro arc oxidation (MAO) in a tetraborate and phosphate based electrolyte for 60 min. With increased Ni content, the color of MAO coating became darker due to increased Ni-containing compound...

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Published in:Journal of materials research and technology Vol. 28; pp. 3597 - 3608
Main Authors: Li, Kang, Zhang, Guoge, Chen, Ken, Li, Wenfang, Zhu, Zhisheng, Huang, Yi, Zhu, Wen, Liao, Zhongmiao, Wan, Bingbing, Liang, Jun, Yang, Jiajing, Liang, Rujian, Liu, Yuandong
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2024
Elsevier
Subjects:
Al-Ni alloys
Anti-Wear performance
Coating growth
Corrosion resistance
Micro arc oxidation
Nanoparticles
Nanoparticles
Corrosion resistance
Anti-Wear performance
Coating growth
Al-Ni alloys
Micro arc oxidation
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Abstract In this study, the pure Al and binary Al–Ni alloys with Ni addition of 1, 3, 6, and 10 wt % were coated via micro arc oxidation (MAO) in a tetraborate and phosphate based electrolyte for 60 min. With increased Ni content, the color of MAO coating became darker due to increased Ni-containing compounds on the surface. The Ni played a negative effect on the coating growth, decreasing both the coating thickness and surface roughness. The coatings on the Al–Ni alloys were mainly composed of γ-Al2O3 and α-Al2O3, and the Ni facilitated the formation of α-Al2O3 in the coating. Nanoparticles of NiO were generated around the edge of discharge channels for Al–6Ni and Al–10Ni alloys after a certain oxidation time. All coatings exhibited a uniform and dense surface structure, with the outer layer being more compact than the inner layer. Many tiny pores were found in the inner layer. Despite the corrosion resistance was decreased, the anti-wear performance of MAO treated samples was improved with the increased Ni content in the matrix. While, the corrosion resistance of the coated samples decreased with the adding of Ni content in the matrix.
AbstractList In this study, the pure Al and binary Al–Ni alloys with Ni addition of 1, 3, 6, and 10 wt % were coated via micro arc oxidation (MAO) in a tetraborate and phosphate based electrolyte for 60 min. With increased Ni content, the color of MAO coating became darker due to increased Ni-containing compounds on the surface. The Ni played a negative effect on the coating growth, decreasing both the coating thickness and surface roughness. The coatings on the Al–Ni alloys were mainly composed of γ-Al2O3 and α-Al2O3, and the Ni facilitated the formation of α-Al2O3 in the coating. Nanoparticles of NiO were generated around the edge of discharge channels for Al–6Ni and Al–10Ni alloys after a certain oxidation time. All coatings exhibited a uniform and dense surface structure, with the outer layer being more compact than the inner layer. Many tiny pores were found in the inner layer. Despite the corrosion resistance was decreased, the anti-wear performance of MAO treated samples was improved with the increased Ni content in the matrix. While, the corrosion resistance of the coated samples decreased with the adding of Ni content in the matrix.
Author Zhang, Guoge
Li, Wenfang
Li, Kang
Liu, Yuandong
Huang, Yi
Wan, Bingbing
Liang, Rujian
Liang, Jun
Zhu, Wen
Liao, Zhongmiao
Chen, Ken
Zhu, Zhisheng
Yang, Jiajing
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Keywords Nanoparticles
Corrosion resistance
Anti-Wear performance
Coating growth
Al-Ni alloys
Micro arc oxidation
Language English
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Snippet In this study, the pure Al and binary Al–Ni alloys with Ni addition of 1, 3, 6, and 10 wt % were coated via micro arc oxidation (MAO) in a tetraborate and...
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elsevier
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StartPage 3597
SubjectTerms Al-Ni alloys
Anti-Wear performance
Coating growth
Corrosion resistance
Micro arc oxidation
Nanoparticles
Title Effects of Ni content on microstructure and performance of MAO coatings on binary Al–Ni alloys
URI https://dx.doi.org/10.1016/j.jmrt.2023.12.285
https://doaj.org/article/4a7be7bd9ec1498483ebaac0ce6e047f
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