Piezoelectric properties of metastable (Li, Na)NbO/sub 3/ ceramics

Proceedings of the 13th IEEE International Symposium on Applications of Ferroelectrics, 2002. ISAF 2002. Pub Date : 2002-05-28 DOI:10.1109/ISAF.2002.1195938

M. Kimura, T. Ogawa, A. Ando, Y. Sakabe

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引用次数: 3

Abstract

Piezoelectric properties of a metastable state in lithium sodium niobate (Li/sub 0.12/Na/sub 0.88/)NbO/sub 3/ ceramics were investigated. (Li/sub x/Na/sub 1-x/)NbO/sub 3/ system has been widely studied and the compounds around x=0.1 have attracted much attention as materials for high frequency piezoelectric applications, because of the large electro-mechanical coupling coefficient and low dielectric permittivity. However, the temperature stability of resonance frequency is not sufficient for these applications, because of the thermal hysteresis of resonance frequency around 100/spl deg/C. It is considered that the thermal hysteresis is caused by the first-order phase transition between rhombohedral and monoclinic phase. We found that the high temperature monoclinic phase became stable at room temperature after a heat treatment in (Li/sub 0.12/Na/sub 0.88/)NbO/sub 3/ (LNN) ceramics. The thermal hysteresis was not observed in the metastable LNN. The electromechanical coupling coefficients of metastable LNN became about two third of that before the heat treatment, and mechanical quality factor became about six times larger. The metastable state was affected by the heat treatment condition. Cooling from tetragonal state, which is observed above monoclinic phase, is probably needed to obtain the meatstable state.

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亚稳(Li, Na)NbO/sub - 3/陶瓷的压电性能

研究了铌酸锂钠(Li/sub 0.12/Na/sub 0.88/)NbO/sub 3/亚稳态陶瓷的压电性能。(Li/sub x/Na/sub 1-x/)NbO/sub 3/体系由于其大的机电耦合系数和低的介电常数，在x=0.1附近的化合物作为高频压电材料得到了广泛的研究。然而，谐振频率的温度稳定性对于这些应用来说是不够的，因为谐振频率的热滞后在100/spl℃左右。认为热滞后是由菱形和单斜相之间的一阶相变引起的。结果表明，(Li/sub 0.12/Na/sub 0.88/)NbO/sub 3/ (LNN)陶瓷经热处理后，高温单斜相在室温下变得稳定。在亚稳态LNN中未观察到热滞后现象。亚稳LNN的机电耦合系数约为热处理前的2 / 3，机械质量因子约为热处理前的6倍。亚稳态受热处理条件的影响。在单斜相之上观察到的四方态的冷却，可能需要获得肉稳定态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 13th IEEE International Symposium on Applications of Ferroelectrics, 2002. ISAF 2002.

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