Microstructures and Wear Behavior of Nickel - Coated Graphite/NiCrW Alloy Composite

Microstructures and Wear Behavior of Nickel - Coated Graphite/NiCrW Alloy Composite

In order to improve the friction and wear properties of NiCrW - based alloys, the nickel - plated graphite with uniform thickness and compactness was prepared by electroless plating. With using pure graphite and nickel - plated graphite as lubricants and the NiCrW alloy powder as the matrix, NiCrW/g...

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Bibliographic Details
Main Author: DUAN Zhao - yu, LI Chang - sheng, KAI Shao - sen, LI Jian
Format: Article
Language:zho
Published: Editorial Department of Materials Protection 2021-04-01
Series:Cailiao Baohu
Subjects:
powder metallurgy; nickel - based alloy; self - lubrication; microstructure; tribological properties
Online Access:http://www.mat-pro.com/fileup/1001-1560/PDF/20210401.pdf
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Summary:In order to improve the friction and wear properties of NiCrW - based alloys, the nickel - plated graphite with uniform thickness and compactness was prepared by electroless plating. With using pure graphite and nickel - plated graphite as lubricants and the NiCrW alloy powder as the matrix, NiCrW/graphite self - lubrication composites with high mechanical properties and good self - lubricating properties were prepared via powder metallurgy. In addition, the influences of different nickel - plated graphite content on the microstructure and tribological properties of composites were studied systematically. Results showed that because the nickel - plated graphite in composites possessed better dispersibility and better combination to the matrix, which endowed the composites with better microstructure, mechanical performance and tribological properties than those added with pure graphite. With the increase of graphite content, friction coefficient and wear rate of NiCrW/graphite composites decreased first and then increased. When the content of nickel - plated graphite was 3%(mass fraction), the as - obtained NiCrW/graphite composites possessed the optimal tribological properties, which had 0.27 of friction coefficient and 3.2×10-5 mm3/(N·m) of wear rate.
ISSN:1001-1560

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