Initial Study of Strontium Barium Niobate/Strontium Barium Titanium Ceramics through A Modified Sol-Gel
来源期刊:Journal of Rare Earths2007年第S1期
论文作者:单连伟 彭娟 吴泽 董丽敏 韩志东 张显友
文章页码:523 - 526
摘 要:Barium strontium titanate niobate (BSTN) composite ceramics system following the general formula 0.5BaO·0.5SrO·0.5TiO2·0.5Nb2O6 was successfully prepared. The investigation is carried out through a modified sol-gel method. By controlling the viscosity of the sol solution to suspend the strontium barium niobate ceramic powder uniformly which had been made beforehand and the viscosity of the sol could be changed by adjusting the mixture ratio of the precursor. Powders obtained from dried gels were calcined at 800 ℃ for 3 h. The bulk ceramics obtained from the dried powders were sintered at the temperatures of 1250 and 1300 ℃ respectively. The results of the XRD and SEM indicated that the perovskite phase and the tungsten bronze phase could be coexisted stably in BSTN at both of these temperatures. The increasing of the sintering temperature was good for the crystal phase growing and the solubility of the two phases in the composite ceramics. And the theory of adulteration could be adopted to resolve the phenomena that sintering temperatures too high, which resulted in the crystalline grains growing singularly. Some problems were put forward to pay attention to this material research process.
单连伟,彭娟,吴泽,董丽敏,韩志东,张显友
摘 要:Barium strontium titanate niobate (BSTN) composite ceramics system following the general formula 0.5BaO·0.5SrO·0.5TiO2·0.5Nb2O6 was successfully prepared. The investigation is carried out through a modified sol-gel method. By controlling the viscosity of the sol solution to suspend the strontium barium niobate ceramic powder uniformly which had been made beforehand and the viscosity of the sol could be changed by adjusting the mixture ratio of the precursor. Powders obtained from dried gels were calcined at 800 ℃ for 3 h. The bulk ceramics obtained from the dried powders were sintered at the temperatures of 1250 and 1300 ℃ respectively. The results of the XRD and SEM indicated that the perovskite phase and the tungsten bronze phase could be coexisted stably in BSTN at both of these temperatures. The increasing of the sintering temperature was good for the crystal phase growing and the solubility of the two phases in the composite ceramics. And the theory of adulteration could be adopted to resolve the phenomena that sintering temperatures too high, which resulted in the crystalline grains growing singularly. Some problems were put forward to pay attention to this material research process.
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