压电与声光
壓電與聲光
압전여성광
PIEZOELECTRICS & ACOUSTOOPTICS
2010年
2期
287-289,292
,共4页
陈亚君%刘彭义%祝兰%常鹏
陳亞君%劉彭義%祝蘭%常鵬
진아군%류팽의%축란%상붕
准同型相界%相结构%机电性能
準同型相界%相結構%機電性能
준동형상계%상결구%궤전성능
morphotropic phase boundary%crystallographic phase%electromechanical properties
采用二步合成法制备了掺杂z%Sb_2O_3的Pb(Zn_(1/3)Nb_(2/3))_0.20(Zr_(0.50)Ti_(0.50))_(0.80)O_3-0.5%MnO_2(PZNTM)压电陶瓷(Sb_2O_3的质量分数为z=0、0.1、0.3、0.5、 0.7、0.9).探讨了不同剂量Sb_2O_3掺杂对陶瓷试样的相结构和机电性能的影响.结果表明,在1 150 ℃下烧结3 h,得到处在准同型相界附近的纯钙钛矿结构的陶瓷;随着Sb_2O_3掺杂量的增加,试样的压电常数d_(33)和机电耦合系数k_p先增大后减小,而介电损耗tan δ持续上升,机械品质因数Q_m则持续下降.当z=0.3时,压电陶瓷的性能得到优化,d_(33)和k_p均达到最大值,分别为302 pC/N和0.60,而tan δ较小、Q_m较大,分别为0.006和880.
採用二步閤成法製備瞭摻雜z%Sb_2O_3的Pb(Zn_(1/3)Nb_(2/3))_0.20(Zr_(0.50)Ti_(0.50))_(0.80)O_3-0.5%MnO_2(PZNTM)壓電陶瓷(Sb_2O_3的質量分數為z=0、0.1、0.3、0.5、 0.7、0.9).探討瞭不同劑量Sb_2O_3摻雜對陶瓷試樣的相結構和機電性能的影響.結果錶明,在1 150 ℃下燒結3 h,得到處在準同型相界附近的純鈣鈦礦結構的陶瓷;隨著Sb_2O_3摻雜量的增加,試樣的壓電常數d_(33)和機電耦閤繫數k_p先增大後減小,而介電損耗tan δ持續上升,機械品質因數Q_m則持續下降.噹z=0.3時,壓電陶瓷的性能得到優化,d_(33)和k_p均達到最大值,分彆為302 pC/N和0.60,而tan δ較小、Q_m較大,分彆為0.006和880.
채용이보합성법제비료참잡z%Sb_2O_3적Pb(Zn_(1/3)Nb_(2/3))_0.20(Zr_(0.50)Ti_(0.50))_(0.80)O_3-0.5%MnO_2(PZNTM)압전도자(Sb_2O_3적질량분수위z=0、0.1、0.3、0.5、 0.7、0.9).탐토료불동제량Sb_2O_3참잡대도자시양적상결구화궤전성능적영향.결과표명,재1 150 ℃하소결3 h,득도처재준동형상계부근적순개태광결구적도자;수착Sb_2O_3참잡량적증가,시양적압전상수d_(33)화궤전우합계수k_p선증대후감소,이개전손모tan δ지속상승,궤계품질인수Q_m칙지속하강.당z=0.3시,압전도자적성능득도우화,d_(33)화k_p균체도최대치,분별위302 pC/N화0.60,이tan δ교소、Q_m교대,분별위0.006화880.
Pb(Zn_(1/3)Nb_(2/3))_0.20(Zr_(0.50)Ti_(0.50))_(0.80)O_3-0.5%MnO_2(PZNTM) piezoelectric ceramics doped with z%Sb_2O_3 (mass contents z=0, 0.1, 0.3, 0.5, 0.7, 0.9) were prepared by the two step synthetic method. The effect of different doped mass contents of Sb_2O_3 on the crystallographic phase and electromechanical properties have been studied. The results showed that the pure perovskite structure was obtained at sintering temperature of 1 150 ℃ for 3 h, and is nearly by the morphotropic phase boundary (MPB). With the increasing of Sb_2O_3 content, the piezoelectric constant d_(33) and electromechanical coupling factor k_p increased, then decreased,moreover, the dielectric loss tan δ increased and the mechanical quality factor Q_m decreased. When z is 0.3, the largest d_(33) and k_p are 302 pC/N and 0.60, respectively, and the tan δ and Q_m are 0.006 and 880, respectively.