Bulk WC–Al 2O 3 composites prepared by spark plasma sintering

Abstract

WC and WC–Al 2O 3 materials without metallic binder addition were densified by spark plasma sintering in the range of 1800–1900 °C. The densification behavior, phase constitution, microstructure and mechanical properties of pure WC and WC–Al 2O 3 composite were investigated. The addition of Al 2O 3 facilitates sintering and increases the fracture toughness of the composites to a certain extent. An interesting phenomenon is found that a proper content of Al 2O 3 additive helps to limit the formation of W 2C phase in sintered WC materials. The pure WC specimen possesses a hardness (HV 10) of 25.71 GPa, fracture toughness of 4.54 MPa·m 1/2, and transverse fracture strength of 862 MPa, while those of WC-6.8 vol.% Al 2O 3 composites are 24.48 GPa, 6.01 MPa·m 1/2, and 1245 MPa respectively. The higher fracture toughness and transverse fracture strength of WC-6.8 vol.% Al 2O 3 are thought to result from the reduction of W 2C phase, the crack-bridging by Al 2O 3 particles and the local change in fracture mode from intergranular to transgranular.