Characterization and dielectric behavior of V₂O₅-doped MgTiO₃-CaTiO₃ ceramic system at microwave frequency

The microwave dielectric properties and the microstructures of MgTiO₃-CaTiO₃ ceramics, prepared by a mixed oxide route, have been investigated. With a small amount of V₂O₅ addition, the firing temperatures of 0.95MgTiO₃-0.05CaTiO₃ ceramics can be lowered to 1250 °C. Moreover, it also effectively holds back the formation of second phase MgTi₂O₅. The microwave dielectric properties are found to strongly correlate with the sintering temperature as well as the amount of V₂O₅ addition. The Q × f value of 0.95MgTiO₃-0.05CaTiO₃ increased with increasing temperature to 1300 °C and decreased thereafter. The decrease in Q × f value was coincident with the abnormal grain growth. A maximum quality factor Q × f of 69,000 GHz (where f = 7 GHz, is the resonant frequency) associated with an ε_r of 18.9 and a τ_f value of -10.65 ppm/°C, was achieved for 0.25 wt% V₂O₅-doped samples at 1300 °C, although the dielectric properties varied with the amount of V₂O₅. By appropriately adjusting the x value in the (1 - x)MgTiO₃-xCaTiO₃ ceramic system, zero τ_f value can be obtained.