Electromechanical Behavior Of Two Phase Non Percolative Composites: Comparison Between Carbon Black / Polyurethane And PZT / Polyurethane Films

2006 15th ieee international symposium on the applications of ferroelectrics Pub Date : 2006-07-01 DOI:10.1109/ISAF.2006.4387841

B. Guiffard, R. German, L. Seveyrat, G. Sebald, A. Benayad, D. Guyomar

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引用次数: 2

Abstract

In this study, electric field-induced thickness strain of pure polyurethane (PU), carbon black C/PU composite and ferroelectric PZT/PU composite have been compared. The three compositions have been submitted to whether a bipolar electric field (0.1 Hz), whether a voltage step. Both C and PZT loading improves the strain of the pure polymer matrix. However, PZT filling yields the highest dynamic strain amplitude (-8.1%) achieved for a field of 13.3 kV/mm. For a given field value, the static strain amplitude obtained after a voltage step is nearly equal to the dynamic strain amplitude. The measurement of voltage step-induced current allowed to determine the constant current-voltage (I-V) characteristics of the three compositions and revealed that predominant space charge limited current occurs in the PZT/PU, whereas three different charge transport mechanisms are activated in the pure and C/PU films, depending on the voltage range. These two distinct electrical behaviors may indicate a difference in the trapping ability owing to the presence of shallow traps in PZT/PU and deeper traps in C/PU and especially in pure PU, which could be at the origin of the larger deformations observed for PZT/PU.

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两相非渗透复合材料的机电性能:炭黑/聚氨酯与PZT /聚氨酯薄膜的比较

本研究比较了纯聚氨酯(PU)、炭黑C/PU复合材料和铁电PZT/PU复合材料的电场致厚度应变。所提交的三种组合物是否为双极电场(0.1 Hz)，是否为电压阶跃。C和PZT载荷均提高了纯聚合物基体的应变。然而，在13.3 kV/mm的电场中，PZT填充产生的动态应变幅值最高(-8.1%)。对于给定的场值，经过一次电压阶跃后得到的静态应变幅值几乎等于动态应变幅值。电压阶进感应电流的测量可以确定三种成分的恒流-电压(I-V)特性，并揭示了主要的空间电荷限制电流发生在PZT/PU薄膜中，而纯和C/PU薄膜中有三种不同的电荷传输机制，取决于电压范围。这两种不同的电行为可能表明，由于PZT/PU中存在浅层陷阱和C/PU(特别是纯PU)中存在深层陷阱，捕获能力存在差异，这可能是PZT/PU中观察到的较大变形的根源。

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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2006 15th ieee international symposium on the applications of ferroelectrics

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