Compositional study of PLZT rainbow ceramics for piezo actuators

Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics Pub Date : 1994-08-07 DOI:10.1109/ISAF.1994.522366

G. Haertling

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引用次数: 19

Abstract

On-going studies have shown that the PLZT I compositional system is one which yields materials possessing some of the highest coefficients for piezoelectric and electrostrictive actuators. It has also been found that PLZT ceramics are near ideal for achieving the ultra-high displacements recently reported for the Rainbow (Reduced and INternally Biased Oxide Wafer) actuators. In order to determine the optimum composition or compositions for these Rainbow actuators, a study was conducted by preparing and processing selected formulations throughout the PLZT system. Results from this study indicate that, like the conventional direct extensional-mode materials, the maximum Rainbow bending displacements occur in materials located compositionally at the morphotropic (FE/sub rhomb/-FE/sub ter/) and Curie point (FE-PE, PE-AFE) phase boundaries. Examples of specific compositions for each of these regions are 2/53/47, 9/65/35 and 8.5/70/30 (La/Zr/Ti), respectively. Microstructural (grain size), electrical (dielectric constant, dissipation factor) and electromechanical (axial displacement) data are presented for selected compositions in the system.

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压电执行器用PLZT彩虹陶瓷的组成研究

正在进行的研究表明，PLZT I组成体系是一种产生的材料具有一些压电和电致伸缩执行器的最高系数。研究还发现，PLZT陶瓷对于实现最近报道的彩虹(减少和内部偏置氧化晶圆)致动器的超高位移几乎是理想的。为了确定这些彩虹致动器的最佳组成，通过在整个PLZT系统中制备和加工选定的配方进行了研究。研究结果表明，与传统的直接拉伸模材料一样，最大的彩虹弯曲位移发生在组成上位于形态取向(FE/亚菱形/-FE/亚菱形/)和居里点(FE- pe, PE-AFE)相界的材料中。这些区域的具体组成分别为2/53/47、9/65/35和8.5/70/30 (La/Zr/Ti)。显微结构(晶粒尺寸)、电学(介电常数、耗散系数)和机电(轴向位移)数据是系统中选定成分的数据。

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Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics

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