Attractive effects of Re on electroless Ni-P-TiN nanocomposite coating

[Display omitted] •Microstructures and properties of three coatings Ni-P, Ni-P-TiN and Ni-P-TiN-Re are studied.•Re addition can significantly increase the deposition rate of Ni-P-TiN.•Re addition leads to a remarkable increase in crystallization temperature of coating.•Re addition can further improv...

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Bibliographic Details
Published in:Applied surface science 2021-11, Vol.565, p.150472, Article 150472
Main Authors: Chen, Baofeng, Yan, Fuyao, Guo, Jinghao, Yan, M.F., Zhang, Yanxiang
Format: Article
Language:English
Subjects:
Crystallization temperature
Deposition rate
Electroless plating
Ni-P-TiN-Re
Wear resistance
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Summary:[Display omitted] •Microstructures and properties of three coatings Ni-P, Ni-P-TiN and Ni-P-TiN-Re are studied.•Re addition can significantly increase the deposition rate of Ni-P-TiN.•Re addition leads to a remarkable increase in crystallization temperature of coating.•Re addition can further improve hardness and wear resistance of Ni-P-TiN coating. Three different types of coatings Ni-P, Ni-P-TiN and Ni-P-TiN-Re are successfully prepared on a copper substrate by electroless plating. The effects of TiN and TiN + Re addition on surface morphology, microstructure, phase composition, deposition rate, thermal stability and wear resistance are investigated. Results show that all coatings exhibit amorphous microstructures, and that Re addition can significantly increase the deposition rate based on the coating thickness. X-ray diffraction of the coating before and after annealing indicates that the addition of TiN nanoparticles to the Ni-P coating barely affects the microstructures and phase transformation behavior, while the addition of Re results in a remarkable increase in crystallization temperature. Regardless of whether it is annealed or not, the wear resistance of Ni-P coating can be significantly improved after the co-deposition of TiN or TiN + Re, and the synergy effect of Re and TiN can further enhance the improvement. These findings provide a pathway to efficiently produce Ni-P-nano TiN composite coatings with excellent performance and thus have great potential in large-scale industry applications.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2021.150472