Formation and Dielectric Properties of Mn-Doped BSTN Composite Ceramics

Formation and Dielectric Properties of Mn-Doped BSTN Composite Ceramics

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摘要 The influence of Mn doping on the formation and dielectric properties of 0.7BaO·0.3SrO·（1-y）TiO2·yNb2O5 （BSTN） composite ceramics were investigated. The Mn was doped according to the formula 0.7BaO·0.3SrO·（0.7-z）TiO2·0.3Nb2O5·zMnO2 （BSTNM）. The results show the two phases, perovskite phase BST and the tungsten bronze phase SBN, are coexistence in BSTNM as they are in BSTN composite ceramics. The Mn ions doped in BSTN substitute for Nb5＋ ions in the tungsten bronze phase, and then, the Nb5＋ ions substitute for Ti4＋ ions in the perovskite phase. With the increasing of Mn dopant, the content of the perovskite phase increases while that of the tungsten bronze phase decreases, and the grain size of the perovskite phase decreases. As well as, the phase transition temperature of tungsten bronze phase increases with value z increasing from 0 to about 0.05. The influence of Mn doping on the formation and dielectric properties of 0.7BaO·0.3SrO·（1-y）TiO2·yNb2O5 （BSTN） composite ceramics were investigated. The Mn was doped according to the formula 0.7BaO·0.3SrO·（0.7-z）TiO2·0.3Nb2O5·zMnO2 （BSTNM）. The results show the two phases, perovskite phase BST and the tungsten bronze phase SBN, are coexistence in BSTNM as they are in BSTN composite ceramics. The Mn ions doped in BSTN substitute for Nb5＋ ions in the tungsten bronze phase, and then, the Nb5＋ ions substitute for Ti4＋ ions in the perovskite phase. With the increasing of Mn dopant, the content of the perovskite phase increases while that of the tungsten bronze phase decreases, and the grain size of the perovskite phase decreases. As well as, the phase transition temperature of tungsten bronze phase increases with value z increasing from 0 to about 0.05.

作者周宗辉

机构地区 School of Materials Science and Engineering

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2010年第1期1-3,共3页 武汉理工大学学报（材料科学英文版）

基金 Supported by the Research Fund of the Doctoral Program of University of Jinan

关键词 MN BSTN Composite ceramics FORMATION Dielectric properties Mn BSTN Composite ceramics Formation Dielectric properties

分类号 TQ174.1 [化学工程—陶瓷工业]

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共引文献7

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Journal of Wuhan University of Technology(Materials Science)

2010年第1期

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Formation and Dielectric Properties of Mn-Doped BSTN Composite Ceramics

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