Preparation of nonreducible BCTZ ceramics by doping complex oxide dopants

2019-08-26 03:37:56

temperature ceramics oxide dopants BCTZ

责任者: Wang, Sheng;Zhou, Xiao-Hua;Zhang, Shu-Ren;Li, Bo;Chen, Zhu 单位: Univ. of Electron. Sci. and Technol., Chengdu 610054, China 来源出处: Wuji Cailiao Xuebao/Journal of Inorganic Materials,2005,20(1):119-125 摘要: A new route was developed for preparation of nonreducible BCTZ ceramics. In this route, complex oxide dopants were obtained by sol-gel process via heat treatment at 500-800°C, and then mixed and milled with (Ba1-xCax) (Ti1-yZry)O3 powders to get nonreducible BCTZ ceramic powders, which could be fired under reducing atmospheres to get base metal compatible ceramics with high permittivity and low dielectric loss. The influence of synthesizing temperature of the mixed dopants, sintering temperature and annealing time on the microstructure and dielectrical properties of the BCTZ ceramics was studied. The nanosized complex oxide dopants (nanosized dopants) synthesized at low temperature were confirmed to be suitable for the modification of the ultrafine ceramic powders. With the increase of the synthesizing temperature of the complex oxide dopants at 500-800°C, the Curie point, dielectric loss and dielectric maximum KMAX of the BCTZ ceramics decreased. Studies on the firing process confirmed that nonreducible BCTZ ceramics satisfying the Y5V specification could be prepared via this route. The ceramics had relative dielectric permittivity higher than 18000, dissipation factor below 0.7%, resistivity as high as 1012 Ω·cm, Curie point in the range of 5-20°C, and the average grain size less than 4 μm. This route can be hopeful to be adopted in the production of Y5V Ni-MLCC with large capacitance. 关键词: Ceramic capacitors;Doping (additives);Sol-gels;Ceramic materials;Dielectric properties;Annealing;Microstructure;Sintering;MLCCs;BCTZ ceramics;Complex oxide dopants;Sintering temperature;Metal compatible ceramics;Nanosized dopants;Dissipation factor;Annealing time