稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
267-270
,共4页
无铅压电陶瓷%居里温度%介电性能%电导率
無鉛壓電陶瓷%居裏溫度%介電性能%電導率
무연압전도자%거리온도%개전성능%전도솔
Lead free piezoelectric%Curie temperature%dielectric properties%conductivity
分别以V~(5+)、Nb~(5+)和W~(6+)离子对CaBi_4Ti_4O_(15)陶瓷进行B位取代,比较3种掺杂离子对CaBi_4Ti_4O_(15)陶瓷的烧结、介电和压电性能的影响.结果表明:3种离子的掺杂均能改善材料的烧结特性,提高瓷体致密度,同时降低高温电导率和损耗.V~(5+)掺杂可显著改善烧结性能,少量V~(5+)掺杂对居里温度影响不大,但可显著降低高温电导率和高温介电损耗.少量Nb~(5+)掺杂可有效提高材料的压电性能.W~(6+)掺杂对居里温度影响最为显著,使居里温度降低了30 ℃,但改性效果不如Nb~(5+)和V~(5+)明显.
分彆以V~(5+)、Nb~(5+)和W~(6+)離子對CaBi_4Ti_4O_(15)陶瓷進行B位取代,比較3種摻雜離子對CaBi_4Ti_4O_(15)陶瓷的燒結、介電和壓電性能的影響.結果錶明:3種離子的摻雜均能改善材料的燒結特性,提高瓷體緻密度,同時降低高溫電導率和損耗.V~(5+)摻雜可顯著改善燒結性能,少量V~(5+)摻雜對居裏溫度影響不大,但可顯著降低高溫電導率和高溫介電損耗.少量Nb~(5+)摻雜可有效提高材料的壓電性能.W~(6+)摻雜對居裏溫度影響最為顯著,使居裏溫度降低瞭30 ℃,但改性效果不如Nb~(5+)和V~(5+)明顯.
분별이V~(5+)、Nb~(5+)화W~(6+)리자대CaBi_4Ti_4O_(15)도자진행B위취대,비교3충참잡리자대CaBi_4Ti_4O_(15)도자적소결、개전화압전성능적영향.결과표명:3충리자적참잡균능개선재료적소결특성,제고자체치밀도,동시강저고온전도솔화손모.V~(5+)참잡가현저개선소결성능,소량V~(5+)참잡대거리온도영향불대,단가현저강저고온전도솔화고온개전손모.소량Nb~(5+)참잡가유효제고재료적압전성능.W~(6+)참잡대거리온도영향최위현저,사거리온도강저료30 ℃,단개성효과불여Nb~(5+)화V~(5+)명현.
The substitution of V~(5+), Nb~(5+) and W~(6+) ions for B site of CaBi_4Ti_4O_(15) ceramics is performed, and the effect of these doping ions on the sintering behavior, dielectric and piezoelectric properties is investigated. It indicates that sintering characteristics and density of ceramics are enhanced and the conductivity and dielectric loss at high temperature are decreased by the addition of these dopants. The sintering behavior is improved remarkably by the substitution of V~(5+) ions. Small amount of V~(5+) ions has little effect on Curie temperature Tc, while drastically decreases the conductivity and dielectric loss at high temperature. Small amount of Nb~(5+) ions increases the piezoelectric properties. The substitution of W~(6+) ions for B site has great effect on T_c, and T_c is lowed by 30 ℃.