Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition

Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition

The supersonic laser deposition (SLD) of diamond/Cu composite powder is studied over a range of laser power. The deposition efficiency, coating microstructure, cohesive/adhesive bonding, phase composition, micro-hardness, and tribological property of the diamond/Cu composite coating are investigated...

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Main Authors: Lijuan Wu, Gang Zhang, Bo Li, Weilin Wang, Xuanjie Huang, Zhijun Chen, Gang Dong, Qunli Zhang, Jianhua Yao
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Coatings
Subjects:
supersonic laser deposition
diamond composite coating
deposition efficiency
cohesive/adhesive bonding
tribological performance
Online Access:https://www.mdpi.com/2079-6412/10/3/276
id doaj-fe4a9b1ce6c24cdc9b31fa13c8d7a3ee
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spelling doaj-fe4a9b1ce6c24cdc9b31fa13c8d7a3ee2020-11-25T02:28:41ZengMDPI AGCoatings2079-64122020-03-0110327610.3390/coatings10030276coatings10030276Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser DepositionLijuan Wu0Gang Zhang1Bo Li2Weilin Wang3Xuanjie Huang4Zhijun Chen5Gang Dong6Qunli Zhang7Jianhua Yao8Institute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaInstitute of Laser Advanced Manufacturing, Zhejiang University of Technology, Hangzhou 310023, ChinaThe supersonic laser deposition (SLD) of diamond/Cu composite powder is studied over a range of laser power. The deposition efficiency, coating microstructure, cohesive/adhesive bonding, phase composition, micro-hardness, and tribological property of the diamond/Cu composite coating are investigated. The results indicate that, as laser power is increased, deposition efficiency initially increases and then declines. The diamond particles distribute uniformly in the composite coating. Due to the increase of velocity ratio and total energy by laser irradiation, the cohesive/adhesive bonding of the composite coating is improved. The composite coating can preserve the phase composition of the origin powders due to the relatively low heat input during the SLD process. Slight oxidation of the Cu powder can be detected in the coatings prepared with high laser power, which has adverse effects on material deposition. The SLD-diamond/Cu composite coating has superior wear-resistance because of low friction coefficient, high micro-hardness, and uniformly distributed diamond particles.https://www.mdpi.com/2079-6412/10/3/276supersonic laser depositiondiamond composite coatingdeposition efficiencycohesive/adhesive bondingtribological performance
collection DOAJ
language English
format Article
sources DOAJ
author Lijuan Wu
Gang Zhang
Bo Li
Weilin Wang
Xuanjie Huang
Zhijun Chen
Gang Dong
Qunli Zhang
Jianhua Yao
spellingShingle Lijuan Wu
Gang Zhang
Bo Li
Weilin Wang
Xuanjie Huang
Zhijun Chen
Gang Dong
Qunli Zhang
Jianhua Yao
Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
Coatings
supersonic laser deposition
diamond composite coating
deposition efficiency
cohesive/adhesive bonding
tribological performance
author_facet Lijuan Wu
Gang Zhang
Bo Li
Weilin Wang
Xuanjie Huang
Zhijun Chen
Gang Dong
Qunli Zhang
Jianhua Yao
author_sort Lijuan Wu
title Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
title_short Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
title_full Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
title_fullStr Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
title_full_unstemmed Study on Microstructure and Tribological Performance of Diamond/Cu Composite Coating via Supersonic Laser Deposition
title_sort study on microstructure and tribological performance of diamond/cu composite coating via supersonic laser deposition
publisher MDPI AG
series Coatings
issn 2079-6412
publishDate 2020-03-01
description The supersonic laser deposition (SLD) of diamond/Cu composite powder is studied over a range of laser power. The deposition efficiency, coating microstructure, cohesive/adhesive bonding, phase composition, micro-hardness, and tribological property of the diamond/Cu composite coating are investigated. The results indicate that, as laser power is increased, deposition efficiency initially increases and then declines. The diamond particles distribute uniformly in the composite coating. Due to the increase of velocity ratio and total energy by laser irradiation, the cohesive/adhesive bonding of the composite coating is improved. The composite coating can preserve the phase composition of the origin powders due to the relatively low heat input during the SLD process. Slight oxidation of the Cu powder can be detected in the coatings prepared with high laser power, which has adverse effects on material deposition. The SLD-diamond/Cu composite coating has superior wear-resistance because of low friction coefficient, high micro-hardness, and uniformly distributed diamond particles.
topic supersonic laser deposition
diamond composite coating
deposition efficiency
cohesive/adhesive bonding
tribological performance
url https://www.mdpi.com/2079-6412/10/3/276
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