Microstructure and properties of W–Cu composites reinforced by in-situ synthesized WC particles in surface layer
Qiao Zhang, B. Yang, Zheng Chen, Nan Deng, Baojiang Chen, Shuhua Liang
Abstract
In the present work, cast iron was used as the carbon source to fabricate WC particle gradient-reinforced W–Cu composites. The results revealed that the surface layer of W–Cu composites after carbonization can be divided into a complete carbonization zone and core-shell structure transition zone, the thickness of the carbonized layer increased gradually with the extension of treatment time. In addition to the W phase and Cu phase, WC and Fe3W3C phases are formed in the surface layer. The hardness and compressive strength of the surface layer show a trend of first increasing and then decreasing, and the arc erosion resistance of the surface layer gradually improves with the treatment time extending. The C atoms diffusion relationship between carbonization layer thickness (D), sintering temperature (T), and treatment time (t) of W–Cu composites with cast iron can be fitted as follows: D=1.9287×1013texp(‐929231RT).