|本期目录/Table of Contents|

[1]徐军,周淼,赵焕校.铁微量掺杂对二钛酸钡陶瓷介电性能的影响[J].武汉工程大学学报,2014,(05):25-28.[doi:103969/jissn16742869201405006]
 XU Jun,ZHOU Miao,ZHAO Huan xiao.Influence of lightdoped Fe on dielectric properties of barium dititantate ceramics[J].Journal of Wuhan Institute of Technology,2014,(05):25-28.[doi:103969/jissn16742869201405006]
点击复制

铁微量掺杂对二钛酸钡陶瓷介电性能的影响(/HTML)
分享到:

《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2014年05期
页码:
25-28
栏目:
材料科学与工程
出版日期:
2014-05-31

文章信息/Info

Title:
Influence of lightdoped Fe on dielectric properties of barium dititantate ceramics
文章编号:
16742869(2014)05002504
作者:
徐军周淼赵焕校
武汉工程大学材料科学与工程学院,湖北 武汉 430074
Author(s):
XU JunZHOU MiaoZHAO Huanxiao
School of Materials Science and Engineering,Wuhan Institute of Technology,Wuhan 430074,China
关键词:
二钛酸钡铁元素掺杂介电性能
Keywords:
barium dititantateFedopeddielectric property
分类号:
TM282
DOI:
103969/jissn16742869201405006
文献标志码:
A
摘要:
采用常规固相反应法,以碳酸钡、二氧化钛和三氧化二铁为原料,制备微量铁掺杂的二钛酸钡陶瓷,研究了铁掺杂含量对二钛酸钡陶瓷的相纯度、相对密度和介电性能的影响.采用X射线粉末衍射仪检测二钛酸钡陶瓷的相成分,利用精密阻抗分析仪测量其介电性能.结果表明,微量铁元素进入了二钛酸钡晶格,能够获得单相二钛酸钡陶瓷的最大铁掺杂量在0.5%~1%之间.随着铁含量的增加,铁电相变居里温度快速减小,从未掺杂时的415 ℃降至铁含量为0.02%时的376 ℃和铁含量为0.5%时的324 ℃.同时介电常数逐渐减小,介电峰不断发生宽化,但并没有导致弛豫性铁电体的出现.微量铁元素的掺杂在实验测量误差范围内对陶瓷的密度影响不大.
Abstract:
To investigate the influence of Fedoping on the dielectric properties,the phase purity and the relative density of BaTi2O5 ceramics,singlephased Fedoped BaTi2O5 ceramics were synthesized from BaCO3,TiO2 and Fe2O3 powders by conventional solidstate reaction.The specimens were characterized by powder Xray diffraction and Fe contents that can yield pure phase BaTi2O5 were determined.The dielectric properties were measured by precesion impedance analyzer in a wide temperature range.The results show that light amount of Fe element enteres BaTi2O5 lattice and the solution limit of Fedoping in BaTi2O5 ceramics is between 0.5% and 1%; upon Fe doping,the ferroelectric phase transition temperature of the BaTi2O5 ceramics decrease rapidly,from 415 ℃ at x=0 to 376 ℃ at x=0.02% and 324 ℃ at x=0.5%.The dielectric constant decreased and dielectric peaks became broadened without dielectric relaxation.Fe doping has little effect on the density of BaTi2O5 ceramics within the limit of the experimental errors.

参考文献/References:

[1]TANGIUANK S,TUNKASIRI T.Solgel synthesis and characterization of BaTi2O5 powders[J].App1 Phys A,2005,81(5):1105I107.[2]HCTOR B,NAHUM M.Nanocomposite ceramics based on Ladoped BaTi2O5 and BaTiO3 with high temperatureindependent permittivity and low dielectric loss[J].J Electroceram,2007,18:277282.[3]AKISHIGE Y,FUKANO K,SHIGEMATSU H,et al.Crystal growth and dielectric properties of new ferroelectric barium titanate:BaTi2O5[J].Journal of Electroceramics,2004,13(13):561565.[4]YU Jianding,YASUTOMO A,TADAHIKO M,et al.Fabrication of BaTi2O5 glassceramics with unusual dielectric properties during crystallization[J].Chem Mater,2006,18,21692173.[5]LI Guojun,TU Rong,Takashi Goto.Preparation of polycrystalline BaTi2O5 ferroelectric ceramics[J].Materials Letters,2009,63:22802282.[6]LI Guojun,TU Rong,Takashi Goto.Preparation of polycrystalline BaTi2O5 pressureless sintering [J].Materials Letters,2009,44:468471.[7]XU Jun,Yukikuni Akishige.Relaxor in KFdoped BaTi2O5 ceramics by spark plasma sintering[J].Appl Phys Lett,2008,92:052902.[8]Peng J,Wang C B,Li L,et a1.Preparation and property of BaTi2O5 ceramics by arcmelting and spark plasma sintering [J].J Electroceram,2012,28:256260.[9]ZHANG Junji,YU Jumei,CHAO Mingju,et al.Textured BaTi2O5 ceramic synthesized by laser rapid solidification method and its dielectric properties [J].J Mater Sci,2012,47:15541558.[10]ZHAO Deng,YING Dai,WEN Chen,et al.Synthesis and characterization of singlecrystalline BaTi2O5 nanowires[J].J Phys Chem,2010,114:17481751.[11]XU Jun,Yukikuni Akishige.KFdoped BaTi2O5 ferroelectric ceramics by solidstate reaction of KF and solgelderived BaTi2O5 powders[J].Appl Phys A,2008,90(6):153157.[12]徐军,唐甲,杨薇.锶掺杂二钛酸钡的熔盐法制备及其介电性能[J].武汉工程大学学报,2013,35(6):4043. XU Jun,TANG Jia,YANG Wei.Synthesis of strontiumdoped barium dititanate and its dielectric properties by molten salt method[J].Journal of Wuhan Institute of Technology,2013,35(6):4043.(in Chinese)[13]YUE Xin Yan,TU Rong,Takashi Goto.Dielectric properties of poly and singlecrystalline Ba1xSrxTi2O5[J].Materials Transactions,2007,48(5):984989.[14]YUE Xin Yan,TU Rong.GOTO Takashi.Dielectric properties of Ba1xCaxTi2O5 prepared by arc melting[J].The Japan Institute of Metals,2009,50(2):245248.[15]ATSUNOBU M,CHIKAKO M,TERUYASU M,et al.Stabilization of metastable ferroelectric Ba1xCaxTi2O5 by breaking Casite selectivity via crystallization from glass[J].Scientiic Reports,2013:15.[16]YUE Xin Yan,TU Rong,Takashi GOTO.Dielectric properties of (010) oriented polycrystalline Ta2O5 substituted BaTi2O5 prepared by arc melting[J].Joumal of the Ceramic Society of Japan,2008,116(3):436440.[17]XinYan Yue,Tu Rong,Takashi Goto.Dielectric property of polycrystalline ZrO2 substituted BaTi2O5 prepared by arcmelting[J].Materials Transactions,2008,49(1):120124.

相似文献/References:

[1]徐军,张立果,贺晓平.助熔剂法生长二钛酸钡单晶[J].武汉工程大学学报,2012,(06):53.[doi:103969/jissn16742869201206013]
 XU Jun,ZHANG Li\|guo,HE Xiao\|ping.Growth of barium dititanium single crystals by flux method[J].Journal of Wuhan Institute of Technology,2012,(05):53.[doi:103969/jissn16742869201206013]
[2]徐军,冷浩博,伍建华.二维片状二钛酸钡颗粒的熔盐法合成[J].武汉工程大学学报,2012,(7):37.[doi:103969/jissn16742869201207008]
 XU Jun,LENG Hao bo,WU Jian hua.Synthesis of 2D platelike barium dititanate particle by molten salt method[J].Journal of Wuhan Institute of Technology,2012,(05):37.[doi:103969/jissn16742869201207008]
[3]徐军,唐甲,杨薇.锶掺杂二钛酸钡的熔盐法制备及其介电性能[J].武汉工程大学学报,2013,(06):40.[doi:103969/jissn16742869201309008]
 XU Jun,TANG Jia,YANG Wei.Synthesis of strontiumdoped barium dititanate and its dielectricproperties by molten salt method[J].Journal of Wuhan Institute of Technology,2013,(05):40.[doi:103969/jissn16742869201309008]

备注/Memo

备注/Memo:
收稿日期:20140318基金项目:教育部留学回国人员科研启动资金;湖北省教育厅科学研究重点项目(D20101504)作者简介:徐军(1970),男,湖北武汉人,教授,博士.研究方向:电子功能材料.
更新日期/Last Update: 2014-06-15