Abstract

以自制的水溶性过氧化柠檬酸铌为原料,利用柠檬酸法制备BiNbO4介电材料。纯的β相BiNbO4粉体可以在700℃和1050℃获得并在低温β相的BiNbO4粉体中观测到奇异相变:低温β相转变为α相。与同等退火条件的粉体相比,陶瓷样品的结构中存在Bi5Nb3O15晶相残余,这导致陶瓷样品中有气孔出现并有局部的晶粒异常长大。1000℃和1050℃烧结获得的BiNbO4陶瓷比较致密,介电性质随频率和温度变化较小;在1 MHz,1000℃和1050℃烧结BiNbO4陶瓷的介电常数和介电损耗分别为44,0.026和35,0.018。 BiNbO4 have been successfully prepared by a citrate method using home-made water-soluble Nb-citrate-peroxide. Pure β-BiNbO4 powders are obtained at 700˚C and 1050˚C respectively, and observed the abnormal phase transition from low temperature β to α phase. Compared to BiNbO4 powders, the ceramic samples have residual Bi5Nb3O15 phase under the same calcination condition, which results in the existence of pores and locally abnormal grain growth in ceramics. The ceramics calcined at 1000˚C and 1050˚C have denser structures and smaller change of dielectric performance versus frequency and temperature. The dielectric permittivity and dielectric loss of BiNbO4 ceramics calcined at 1000˚C and 1050˚C are 44, 0.026 and 35, 0.018 at 1 MHz respectively.

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