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Abstract In polycrystalline ceramics, charge trapping property has important impact on the dielectric breakdown strength (DBS). In this work, alumina ceramics with Ca9Al(PO4)7(CAP) as the second crystalline phase were synthesized… Click to show full abstract
Abstract In polycrystalline ceramics, charge trapping property has important impact on the dielectric breakdown strength (DBS). In this work, alumina ceramics with Ca9Al(PO4)7(CAP) as the second crystalline phase were synthesized using coarse alumina as main raw materials, and the CAP crystal being dendritic or granular depends on the mass ratio of calcium phosphate to kaolin in the raw material composition. Microstructure and impedance spectrum indicated that dendritic CAP with typical fractal features greatly increases the charge trapping sites and charge spreading barrier. The AC DBS of ceramics with 70 wt% alumina and fractal dendritic CAP achieved a competitive value of 16.1 kV/mm. The results indicate that growing fractal dendritic CAP between the main crystalline grains is a very feasible way to enhance the DBS of alumina ceramic.
Journal Title: Journal of Alloys and Compounds
Year Published: 2020
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