The Relation between Transverse-Rupture Strength and structural Defects in P30 Cemented Carbide

Abstract

The transverse-rupture strength (σ_m) of P30 cemented carbide (WC-36%β_t-8%Co;β_t solid solution of WC/TiC/TaC=45/22/33) was studied in relation to structural defects acting as the fracture source.
It was found that σ_m of as-sintered alloy was always affected by the defect of pores, being often accompanied by β_t layer or β_t segregation. In case of HIP-treated alloy, such defects as cobalt pools surrounded by the β_t layer or attached to by the segregated β_t appeared, caused by the pores above mentioned. However, in the alloy (s-alloy) prepared by using commercially available spray-dried-powder, pores accompanied by β_t layer or cobalt pools having β_t layer were not observed. The higher strength of s-alloy was due to this fact. It was found that σ_m of P30 alloy, whether it was as-sintered alloy or HIP-treated alloy, was closely related to the structural defects peculiarly formed in this alloy.