Flash sintering of Al2O3-ZrO2 ceramics under alternating current electric field

In this study, the influence of alternating current (AC) electric field on flash sintering and microstructural evolution of alumina-zirconia (Al2O3-ZrO2) composite was systematically investigated at furnace temperature of 800 degrees C. Compared with direct current (DC) electric field, AC electric field not only promoted densification and grain growth of Al2O3-ZrO2 composite, but also improved the uniformity of microstructure of ceramics. Grain size of AC flash-sintered samples was found to be inversely related to electric field, and positive correlation was observed with current density limit. Dense Al2O3-ZrO2 composite ceramic was fabricated via AC flash sintering under 60 mA mm(-2) at low furnace temperature within 120 s, and as-sintered samples exhibited relatively good mechanical properties. The mechanism involving synergistic effect of Joule heating and defects generation under the influence of electric field was proposed to explain rapid densification during AC flash sintering. These results indicate the feasibility of preparation of dense composite ceramic with homogeneous microstructure via AC flash sintering.

Automated summary

This study systematically investigated the influence of an alternating current (AC) electric field on flash sintering and microstructural evolution of alumina-zirconia composite. The results showed that the AC electric field promoted densification and grain growth of the composite, and improved the uniformity of its microstructure. Dense composite ceramics with homogeneous microstructure were successfully fabricated via AC flash sintering at low furnace temperature.