Abstract
Ultra-coarse grained WC–6Co cemented carbides with 1.2wt% (Ni and/or Cu) additions were investigated and compared with a focus on microstructure, mechanical properties and wear resistance using scanning electron microscope, X-ray diffraction, mechanical properties tests and wear test. The results reveal that Ni and/or Cu play a definite role in inhibiting the growth of WC grain and stabilizing fcc-Co. Moreover, Cu exhibits a stronger inhibition effect on the WC grain growth compared to Ni. In addition, Ni promotes WC grains to evolve towards the plate-like shape, while Cu retards the evolution of WC grains from round shape to facetted shape. Therefore, the addition of 1.2wt% Ni can improve simultaneously hardness and fracture toughness, resulting in an approximate 50% improvement in wear resistance. However, Cu is proven to improve hardness at the expense of fracture toughness, and deteriorate wear resistance. Instead of Cu, in this regard, Ni is a promising addition to strength ultra-coarse grained WC–Co cemented carbides used for rock-drilling applications.
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