Email this article Fabrication and Wear Performance of (Cu–Sn) Solution/TiCx Bonded Diamond Composites
- Authors: Liang B.1,2, Han D.1,2, Zhang W.1,2
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Affiliations:
- Materials and Chemical Engineering School
- National and Local Joint Laboratory of Engineering of Diamond Technology
- Issue: Vol 40, No 3 (2018)
- Pages: 179-183
- Section: Production, Structure, Properties
- URL: https://ogarev-online.ru/1063-4576/article/view/186197
- DOI: https://doi.org/10.3103/S1063457618030048
- ID: 186197
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Abstract
The Cu(Sn)–TiCx bonded diamond composites were prepared by in situ reaction sintering of Cu, Ti2SnC and diamond powders. Effect of Ti2SnC content on the phase composition, microstructure and grinding properties were studied. The result shows that Ti2SnC was decomposed to TiCx and Sn. And then, Sn atom dissolved into the crystal lattice of Cu and formed Cu(Sn) solution. The rich C formed at the interface between diamond and the matrix. Excess Ti2SnC inhibited the formation of Cu solid solution and reacted with Cu to form Cu3Sn. Additionally, its matrix was mainly composed of TiCx with better wear resistance, which may improve obviously the grinding performance of the composites. The grinding ratio value of copper–diamond composite was only 132. The grinding ratio value of the composite contained higher Ti2SnC content in the raw materials was 636.
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About the authors
Baoyan Liang
Materials and Chemical Engineering School; National and Local Joint Laboratory of Engineering of Diamond Technology
Email: zwxlby@126.com
China, Zhengzhou; Zhengzhou
Danhui Han
Materials and Chemical Engineering School; National and Local Joint Laboratory of Engineering of Diamond Technology
Email: zwxlby@126.com
China, Zhengzhou; Zhengzhou
Wangxi Zhang
Materials and Chemical Engineering School; National and Local Joint Laboratory of Engineering of Diamond Technology
Author for correspondence.
Email: zwxlby@126.com
China, Zhengzhou; Zhengzhou
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