Evaluation of large signal minor loop behavior in PMN-PT ceramics

2000 IEEE Ultrasonics Symposium. Proceedings. An International Symposium (Cat. No.00CH37121) Pub Date : 2000-10-22 DOI:10.1109/ULTSYM.2000.921493

H. Robinson, E. Mclaughlin

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引用次数: 2

Abstract

The stress and polarization behavior of a lanthanum doped PMN-PT was evaluated using unipolar and biased drives of up to 1.3 MV/m under varying temperatures and mechanical stresses. In particular, the behavior of the strain vs. field and polarization vs. field loops for biased minor loops is be compared to that of the full unipolar drives. It is shown that, as the hysteresis of a material increases, the minor loops tend to rotate around the midline of the major loop. This leads to smaller values for the large signal piezoelectric and dielectric constants than would be predicted from the major loop alone. The behavior of several material performance measures, such as the strain energy density, electromechanical coupling factor and dielectric loss factor, are analyzed as functions of the DC bias and AC drive fields. It is shown that the energy density and coupling factor tend to increase with DC bias field but decrease with AC drive. The dielectric loss factor, on the other hand, decreases as either the DC bias or AC drive fields are increased.

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PMN-PT陶瓷中大信号小回路行为的评价

在不同的温度和机械应力下，采用单极和偏置驱动(最高1.3 MV/m)对镧掺杂PMN-PT的应力和极化行为进行了评估。特别地，对偏置小回路的应变与场和极化与场回路的行为进行了与完整单极驱动器的比较。结果表明，当材料的磁滞增加时，小回路倾向于绕大回路的中线旋转。这导致大信号的压电常数和介电常数比单独从主回路预测的值要小。分析了应变能密度、机电耦合因子和介质损耗因子等材料性能指标随直流偏置和交流驱动场的变化规律。结果表明，在直流偏置场下，能量密度和耦合系数有增大的趋势，而在交流驱动下，能量密度和耦合系数有减小的趋势。另一方面，介质损耗因子随着直流偏置或交流驱动场的增大而减小。

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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2000 IEEE Ultrasonics Symposium. Proceedings. An International Symposium (Cat. No.00CH37121)

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