利用固相反应法合成了Ca1-x(KLa)x/2Bi2Nb2O9(x=0~0.20)(xKLaCBNO)铋层状陶瓷,分析不同KLa掺杂量对CaBi2Nb2O9(CBNO)基陶瓷微观结构、介电、压电及电导性能的影响.XRD分析表明KLa的引入未改变CBNO陶瓷的单相结构.SEM和介电系数温度谱结果分别显示,KLa掺杂量的增加,细化尺寸趋于一致,而居里温度(Tc)从943℃降低至875℃,其峰值介电常数减小、峰值介电损耗增大.当掺杂量x=0.1时,样品的高温电阻率较纯CBNO显著升高,压电系数d33由5.2pC/N提高到15.8pC/N,居里温度高达870℃,说明A位(KLa)掺杂改性后的CBNO陶瓷在高温传感器等领域具有潜在的应用前景.
参考文献
| [1] | JIANG Xiang-Ping,YANG Qing,CHEN Chao,et al.Nb-modified Bi4Ti3O12 piezoelectric for high temperature applications.Journal of Inorganic Materials,2010,25(11):1169-1174. |
| [2] | 赁敦敏,肖定全,朱建国,等.从发明专利看无铅压电陶瓷的研究与发展——无铅压电陶瓷20年发明专利分析之一.功能材料,2003,3(34):312-315. |
| [3] | GU Da-Guo,LI Guo-Rong,ZHENG Liao-Yimg,et al.Electrical properties of Mn-modified CaBi4Ti4O15 piezoelectrics for high temperature application.Journal of Inorganic Materials,2008,23(3):626-630. |
| [4] | YAN Hai Xue,LI Cheng En,ZHOU Jia-Guang,et al.Structures and properties of bismuth layer-structured piezoelectric ceramics with high Tc.Journal ofInorganic Materials,2000,15(2):209-220. |
| [5] | Yan H X,Zhang H T,Ubic R,et al.A lead-free high-curie-point ferroelectrie ceramic,CaBi2Nb2O9.Adv.Mater.,2006,17(10):1261-1265. |
| [6] | Zhang X D,Yah H X,Reece M J.Effect of A site substitution on the properties of CaBi2Nb2O9 ferroelectric ceramics.J.Am.Ceram.Soc.,2008,91(9):2928-2932. |
| [7] | Wang C M,Wang J F,Mao C L,et al.Enhanced dielectric and piezoelectric properties of anrivillius-type potassium bismuth titanate ceramics by cerium modification.J.Am.Ceram.Soc.,2008,91(9):3094-3097. |
| [8] | Yan H X,Li C G,Zhou J G,et al.Effects of A-site (NaCe) substitution with Na-deficiency on structures and properties of CaBi4Ti4O15-based high-curie-temperature ceramics.Jpn.J.Appl.Phys.,2001,40(11):6501-6505. |
| [9] | Armstrong R A,Newnham R E.Bismuth titanate solid solutions.Mat.Res.Bull.,1972,7(10):1025-1034. |
| [10] | Osada M,Kakihana M,Wada S,et al.Broken symmetry in low-temperature BaTiO3 phases:strain effects probed by Raman scattering,Appl.Phys.Lett.,1999,75(21):3393-3395. |
| [11] | Watcharapasorn A,Siriprapa P,Jiansirisomboon S.Grain growth behavior in bismuth titanate-based ceramics.J.Eur Ceram.Soc.,2010,30(1):87-93. |
| [12] | Santos V B,M' Peko J C,Mir M,et al.Microstructural,structural and electrical properties of La3+-modified Bi4Ti3O12 ferroelectric ceramics.J.Eur.Ceram.Soc.,2009,29(4):751-756. |
| [13] | Subbarao E C.Grain size effects in advanced ceramics.Colloids and Surfaces A:Physicochemical and Engineering Aspects,1998,133(1/2):3-11. |
| [14] | Yan H X,Zhang Z,Zhu W M,et al.The effect of (Li,Ce) and (K,Ce) doping in Aurivillius phase material CaBi4Ti4O15.Mat.Res.Bull.,2004,39(9):1237-1246. |
| [15] | Hiroshi Irie,Masaru Miyayama,Tetsuichi Kudo.Electrical properties of a bismuth layer-structured Ba2Bi4Ti5O18 single crystal.J.Am.Ceram.Soc.,2000,83(11):2699-2704. |
| [16] | Wang C M,Zhang S J,Wang J F,et al.Electromechanical properties of calcium bismuth niobate (CaBi2Nb2O9) ceramics at elevated temperature.Mater.Chem.Phys.,2009,118(1):21-24. |
| [17] | Jardiel T,Rubia M A,Peiteado M.Control of functional microstructure in WO3-doped Bi4Ti3O12 ceramics.J.Am.Ceram.Soc.,2008,91(4):1083-1087. |
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