The paper [5] stated that the presence of selleckchem fracture surface areas with relief twinning can indicated that the structure undergoes a stress-induced martensitic (tetragonal-monoclinic) transformation during fracture. We assume that some of the grains with twin structure are zirconia grains. However, to confirm this hypothesis, the chemical analysis of the samples should be carried out. The formation of W2C assumed to be a reaction between
ZrO2 and WC [6]: (1) where x is the oxygen vacancy concentration in the ZrO2 as a result of the dopant concentration, and y is the additional vacancy concentration created in the ZrO2 due to the reaction with WC. This reaction contributes to the formation of additional oxygen vacancies and W2C. The occurrence of additional oxygen vacancies leads to an increase of non-stoichiometry ZrO2 phase. This can improve the diffusion coefficient in a certain degree, whereby the mass transfer
occurs quickly and, therefore, increases the rate of sintering. The Vickers hardness (HV10) and indentation fracture toughness (K IC) of the ZrO2-20 wt.% WC composites are graphically presented as a function of the sintering temperature in Figure 5. Figure 5 Vickers hardness and fracture toughness of the ZrO 2 -20 wt.% WC composites. Vickers hardness and fracture toughness as functions of the sintering temperature. The hardness variation with sintering temperature is closely related to the bulk density and microstructural features. The hardness increased continuously with increasing temperature from 1,200°C to 1,350°C (Figure 5), due to an increased densification, reaching a maximum hardness at full densification when temperature buy VX-680 was at 1,350°C. At higher sintering temperatures, the hardness slightly decreased due to the increased WC and ZrO2 grain size, as well as the partial spontaneous transformation of the ZrO2 phase. The fracture toughness increased rapidly from 5.5 to 8.5 MPa m1/2 with increasing temperature from 1,200°C to 1,350°C (Figure 5), followed by a decreasing trend to 8.1 MPa m1/2
at 1,400°C. The high value of fracture toughness may be due to the fact that a part of the tetragonal phase of ZrO2 transforms to the monoclinic ZrO2 (Figure 4) during electroconsolidation Hormones antagonist at a temperature of 1,350°C. Moreover, in the ZrO2-WC composites, crack deflection is an effective toughening mechanism besides the ZrO2 phase transformation toughening. The radial crack pattern originating in the corners of the Vickers indentations revealed that the propagating cracks were deflected by the WC grains (Figure 6), which was also observed in hot pressed ZrO2-WC composites [5]. Figure 6 SEM-SE microstructure of fracture surface of WC-ZrO 2 composite. T = 1,350°C, P = 30 MPa, and holding time = 2 min. Conclusions Electroconsolidation provides a uniform density distribution, without any plasticizers that are potential LDC000067 research buy sources of impurities and additional porosity in the sintered product.