Download This PaperMicrostructure and Mechanical Properties Enhancement of Wc-10co Cemented Carbide with Y2o3 and VC Composite Additives
25 Pages Posted: 21 Feb 2025
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Microstructure and Mechanical Properties Enhancement of Wc-10co Cemented Carbide with Y2o3 and VC Composite Additives
Abstract
By employing a liquid-liquid doping method to introduce Y2O3 and VC into WC-Co composite powders, WC-10Co cemented carbide with uniform microstructure and excellent performance was successfully prepared through low-pressure sintering. The effects of Y2O3, VC, and their composite addition on the microstructure and mechanical properties of WC-10Co cemented carbide were investigated. The results indicate that as the content of Y2O3 and VC increases, the WC grain size in WC-10Co cemented carbide reduces significantly. Compared to Y2O3, the addition of VC has a more pronounced effect in inhibiting grain growth. A suitable amount of VC has a stronger effect on improving the hardness and transverse rupture strength of WC-10Co cemented carbide, while an appropriate amount of Y2O3 is more effective in enhancing its fracture toughness. When Y2O3 and VC are co-doped, not only is WC grain refinement achieved, but the overall uniformity of WC-10Co carbide grains is also improved, thereby enhancing the mechanical properties of WC-10Co cemented carbide. In particular, when a combined additive of 0.25 wt% Y2O3 and 0.25 wt% VC is added, the WC-10Co cemented carbide exhibits the most uniform microstructure and optimal comprehensive mechanical properties. The alloy exhibits an average WC grain size of 0.64μm, a relative density of 99.96%, a Vickers hardness of 1765 HV30, a fracture toughness of 15.06 MPa·m1/2, and a transverse rupture strength of 3600 MPa.
Keywords: Cemented carbides, microstructure, Mechanical properties, Compound Addition
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