Effect of the preheating temperature and polarization treatment on the electrical properties of 0–3 PZT/IPN piezoelectric composites

D. Tang, Xuelian Wu, Xiuling Lin
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Abstract

Lead zirconate titanate(PZT)/IPN piezoelectric composites with 0–3 connectivity consisting in PZT ceramic powder with nanoscale and Interpenetrating Polymer Networks(IPN) matrix were prepared through solution mixing method. The composites were polarized at 130 °C for 45 min under the electric field of 6.5 kV. The relationship of the preheating temperature of PZT and the electrical properties were studied and the effects of the polarization treatment of the piezoelectric phase on the electrical properties of 0–3 composites were investigated. The results showed that, with the same preheating temperature, the dielectric constant of PZT increased and the dielectric loss of PZT decreased after the polarization treatment. The dielectric constant and the piezoelectric constant of the composites with the polarized PZT in 0–3 piezoelectric composites both declined, whereas the dielectric loss changed unobvious.
预热温度和极化处理对0-3 PZT/IPN压电复合材料电性能的影响
采用溶液混合法制备了纳米级锆钛酸铅(PZT)陶瓷粉和互穿聚合物网络(IPN)基体,具有0-3连通性的PZT /IPN压电复合材料。复合材料在6.5 kV电场下,在130℃下极化45 min。研究了压电相预热温度与复合材料电性能的关系,以及压电相极化处理对复合材料电性能的影响。结果表明:在预热温度相同的情况下,极化处理后的PZT介电常数增大,介电损耗减小;0-3压电复合材料中PZT极化后的介电常数和压电常数均下降,而介电损耗变化不明显。
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