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采用固相工艺制备BaTiO3-R2O3-MgO-MnO2(R=La,Ce,Pr,Nd,Sm,Gd,Dy,Ho,Y,Er,Yb)系陶瓷,全面研究了稀土掺杂对还原烧结钛酸钡(BaTiO3)陶瓷微结构和电性能的影响。扫描电镜分析结果显示:小离子半径稀土比大离子半径稀土更有效地改善微观结构,并且随着稀土离子半径的减小,其晶粒抑制作用更加显著。实验发现:大半径稀土掺杂可生成化学均匀性晶粒,得到介电常数-温度(ε-T)单峰曲线,并导致Curie点下降;小半径稀土掺杂可生成壳-芯结构晶粒,获得ε-T双峰曲线,晶粒壳的体积相对膨胀,对晶粒芯产生的张应力作用促使Curie点上升,其平坦的电容变化率-温度(ΔC/C-T)特性满足X8R。随着稀土离子半径的增大,该体系的绝缘电阻率总体呈降低趋势,归因于稀土元素在BaTiO3中取代位及补偿方式的不同。
Abstract:The influence of rare-earth oxides doping on the microstructure and dielectric properties of BaTiO3-R2O3-MgO-MnO2 (R = La, Ce, Pr, Nd, Sm, Gd, Dy, Ho, Y, Er, and Yb) system sintered in reducing atmosphere was studied. Scanning electron microscope results show the smaller ions can inhibit grain growth more effectively than the larger ions do. The experiments indicate the lar-ger-ion-doped samples form homogeneous grains, resulting in single-peak of dielectric-temperature (ε-T) curves and a decrease of the Curie point, whereas the smaller-ion-doped ones produce core-shell grains, leading to double-peak ε-T curves and an increase of the Curie point. The shift of the Curie point to higher temperatures is attributed to the tensile stress resulting from the volume-expansion mismatch between the grain core and grain shell. The insulation resistivity decreases with increasing radius of rare-earth ions owing to the different occupation sites and compensation models in BaTiO3. The smaller-ion-doped specimens with flat capacitance variation-temperature (?C/C-T) behavior meet X8R specifications.
[1]OKINO Y,SHIZUNO H,KUSUMI S,et al.Dielectric properties of rare-earth-oxide-doped BaTiO3ceramics fired in reducing atmosphere[J].Jpn J Appl Phys,1994,33(9B):5393-5396.
[2]TENNERY V J,COOK R L.Investigation of rare-earth doped barium titanate[J].J Am Ceram Soc,1961,44(4):187-193.
[3]HISHI H,OKINO Y,HONDA M,et al.The effect of MgO and rare-earth oxide on formation behavior of core-shell structure in BaTiO3[J].Jpn J Appl Phys,1997,36(9B):5954-5957.
[4]KISHI H,KOHZU N,MIZUNO Y,et al.Effect of occupational sites of rare-earth elements on the microstructure in BaTiO3[J].Jpn J Appl Phys,1999,38(9B):5452-5456.
[5]KISHI H,KOHZU N,SUGINO J,et al.The effect of rare-earth(La,Sm,Dy,Ho and Er)and Mg on the microstructure in BaTiO3[J].J Eur Ceram Soc,1999,19(6-7):1043-1046.
[6]KISHI H,MIZUNO Y,CHAZONO H.Base-metal electrode-multilayer ceramic capacitors:past,present and future perspectives[J].Jpn J Appl Phys,2003,42(1):1-15.
[7]SONG Y H,HWANG J H,HAN Y H.Effect of Y2O3on temperature stability of acceptor-doped BaTiO3[J].Jpn J Appl Phys,2005,44(3):1310-1313.
[8]JUNG Y S,NA E S,PAIK U,et al.A study on the phase transition and characteristics of rare earth elements doped BaTiO3[J].Mater Res Bull,2002,37(9):1633-1640.
[9]KUWABARA M,MATSUDA H,KURATA N,et al.Shift of the Curie point of barium titanate ceramics with sintering temperature[J].J Am Ceram Soc,1997,80(10):2590-2596.
[10]HWANG J H,HAN Y H.Electrical properties of cerium-doped BaTiO3[J].J Am Ceram Soc,2001,84(8):1750-1754.
[11]HIROSE N,SKAKLE J M S,WEST A R.Doping mechanism and permitivity correlations in Nd-doped BaTiO3[J].J Electroceram,1999,3(3):233-238.
[12]NAKAMURA T,SANO H,KONOIKE T,et al.BaTiO3-based non-reducible low-loss dielectric ceramics[J].Jpn J Appl Phys,1999,38(9B):5457-5460.
[13]LEE W H,OGOEN W A,SCHREINEMACHER H,et al.Dysprosium doped dielectric materials for sintering in reducing atmospheres[J].J Electroceram,2000,5(1):31-36.
[14]ZHI J,CHEN A,ZHI Y,et al.Dielectric properties of Ba(Ti1-yYy)O3ceramics[J].J Appl Phys,1998,84(2):983-986.
[15]MOLOKHIA N M,ISSA M A A,NASSER S A.Dielectric and X-ray diffraction studies of barium titanate doped with ytterbium[J].J Am Ceram Soc,1984,67(4):289-291.
[16]LIN M H,LU H Y.Site-occupancy of yttrium as a dopant in BaO-excess BaTiO3[J].Mater Sci Eng A,2002,335(1-2):101-108.
[17]HWANG J H,HAN Y H.Dielectric properties of erbium doped barium titanate[J].Jpn J Appl Phys,2001,40(2A):676-679.
[18]TSUR Y,DUNBER T D,RANDALL C A.Crystal and defect chemis-try of rare-earth cations in BaTiO3[J].J Electroceram,2001,7(1):25-34.
[19]TSUR Y,HITOMI H,SCRYMGEOUR I,et al.Site occupancy of rare-earth cations in BaTiO3[J].Jpn J Appl Phys,2001,40(1):255-258.
[20]NAGAI T,IIJIMA K,HWANG H J,et al.Effect of MgO doping on the phase transitions of BaTiO3[J].J Am Ceram Soc,2000,83(1):107-112.
[21]ARMSTRONG T R,BUCHANAN R C.Influence of core-shell structure grains on the internal state and permittivity response of zirco-nia-modified barium titanate[J].J Am Ceram Soc,1990,73(5):1268-1273.
[22]MERZ W J.The effect of hydrostatic pressure on the curie point of barium titanate single crystals[J].Phys Rev,1950,78(1):52-54.
基本信息:
中图分类号:TQ174
引用信息:
[1]李波,周晓华,张树人.稀土掺杂对还原烧结钛酸钡陶瓷微结构和电性能的影响[J].硅酸盐学报,2008(03):277-282.
基金信息:
电子科技大学青年基金(L08010301JX0727)资助项目
2008-03-15
2008-03-15