Abstract
Taking the advantage of the large mean free paths of the binder phases, we investigated the effect of Cr–V and Cr–V–RE (RE: rare earth) additives on the micro characteristics of the Co-based binder phases (the Cos) in WC–8.4Co cemented carbides with grain sizes larger than 5μm and a narrow two-phase carbon window. It included the crystal structure parameters, composition and morphology. To avoid the interference of WC phase on the analysis, a method of selective electrolysis corrosion of WC was employed. Based on the investigation of the residual Co skeletons, the following facts were established: (1) the sole fcc structure; (2) the quite different solution behavior of V and Cr; (3) the significantly suppressed solid solubility of W and significantly increased solid solubility of W+Cr+V (in atomic fraction) and (4) the formation of fine stairs on the surfaces. A strong ability of Cr–V and Cr–V–RE additives in the grain growth inhibition was observed even though an extra coarse WC raw material was used. The relationship among the solid solubility, lattice parameter and strain in/of the Cos, the magnetic saturation and the grain growth inhibition of the alloys were discussed.
Published Version
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