Characterization and in-situ formation mechanism of tungsten carbide reinforced Fe-based alloy coating by plasma cladding

被引:0
作者
Mi-qi Wang
Ze-hua Zhou
Lin-tao Wu
Ying Ding
Ze-hua Wang
机构
[1] Hohai University,College of mechanics and materials
来源
International Journal of Minerals, Metallurgy, and Materials | 2018年 / 25卷
关键词
precursor carbonization; tungsten carbide (WC); microstructure; formation mechanism; phase evolution;
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中图分类号
学科分类号
摘要
The precursor carbonization method was first applied to prepare W–C compound powder to perform the in-situ synthesis of the WC phase in a Fe-based alloy coating. The in-situ formation mechanism during the cladding process is discussed in detail. The results reveal that fine and obtuse WC particles were successfully generated and distributed in Fe-based alloy coating via Fe/W–C compound powders. The WC particles were either surrounded by or were semi-enclosed in blocky M7C3 carbides. Moreover, net-like structures were confirmed as mixtures of M23C6 and α-Fe; these structures were transformed from M7C3. The coarse herringbone M6C carbides did not only derive from the decomposition of M7C3 but also partly originated from the chemical reaction at the α-Fe/M23C6 interface. During the cladding process, the phase evolution of the precipitated carbides was WC → M7C3 → M23C6 + M6C.
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页码:439 / 443
页数:4
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