Influence of the electric field on flash-sintered (Zr plus Ta) co-doped TiO2 colossal permittivity ceramics

In the preparation process for advanced ceramics, how to reduce the sintering temperature, shorten the processing time and refine grains is the key to obtaining high-performance ceramic materials. The flash sintering (FS) provides an effective method to solve this issue. Here, (Zr + Ta) co-doped TiO2 colossal permittivity ceramics were successfully fabricated by conventional sintering (CS) and flash sintering under electric fields from 500 V/cm to 800 V/cm. The flash behavior, sintered crystal structure and microstructure, dielectric properties, and varistor characteristics were systematically investigated. The effects of the applied electric fields on the above behaviors were discussed. The results show that flash sintering can reduce the sintering temperature by 200 degrees C, decrease the processing time by 10 times and reduce grain sizes in TiO2 ceramics. All sintered samples were single rutile structures. Flash sintering led to similar electrical properties to conventional sintering. In the flash-sintered samples, with increasing the electric field, the permittivity of co-doped TiO2 ceramics increased at a frequency of 10(3)-10(4) Hz. The flash-sintered sample under an electric field of 800 V/cm possessed the best comprehensive properties, a dielectric permittivity of >10(5), a dielectric loss of similar to 0.77 at 10(3) Hz, and a nonlinear coefficient of 5.2.

Automated summary

The effects of flash sintering on (Zr + Ta) co-doped TiO2 ceramics were investigated, and the results showed that flash sintering can reduce the sintering temperature, shorten the processing time, and increase the dielectric permittivity with increasing electric fields.