Effects of Piezoelectric Ceramic Powder Content and Surface-Attaching Microparticles on Properties of 0-3 Type Piezoelectric Composite

CAI Zhenjie; YU Chenglin; ZHAO Cheng; WANG Jiaqi

doi:10.11973/jxgccl201806009

Materials and Mechanical Engineering > 2018 > 42(6): 46-49. > DOI: 10.11973/jxgccl201806009

CAI Zhenjie, YU Chenglin, ZHAO Cheng, WANG Jiaqi. Effects of Piezoelectric Ceramic Powder Content and Surface-Attaching Microparticles on Properties of 0-3 Type Piezoelectric Composite[J]. Materials and Mechanical Engineering, 2018, 42(6): 46-49. DOI: 10.11973/jxgccl201806009

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Effects of Piezoelectric Ceramic Powder Content and Surface-Attaching Microparticles on Properties of 0-3 Type Piezoelectric Composite

Shanghai Key Laboratory for Engineering Materials Application and Evaluation, Shanghai Research Institute of Materials, Shanghai 200437, China

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Received Date: January 23, 2018
Revised Date: March 25, 2018

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Abstract

With PbZr_0.49Ti_0.51O₃ (PZT) piezoelectric ceramic powder before and after ultrasonic cleaning and polyvinylidene fluoride (PVDF) as raw materials, 0-3 type PZT/PVDF piezoelectric composites containing different content of ceramic powder were prepared by flow casting method. The effects of ceramic powder content and surface-attaching microparticles on the properties of the piezoelectric composite were studied. The results show that the surface of the ceramic particles was attached with ceramic microparticles without ultrasonic cleaning, and the ceramic microparticles were almost removed after ultrasonic cleaning. The relative dielectric constant and piezoelectric constant of the piezoelectric composites increased with the increase of ceramic powder content. The relative dielectric constant and piezoelectric constant of the piezoelectric composite obtained with ceramic particles without surface-attaching microparticles were higher than those with surface-attaching microparticles; the difference values of the relative dielectric constants and of the piezoelectric constants increased with the increase of ceramic powder content.
- piezoelectric composite,
- surface attached microparticle,
- piezoelectric ceramic powder,
- polyvinylidene fluoride

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Effects of Piezoelectric Ceramic Powder Content and Surface-Attaching Microparticles on Properties of 0-3 Type Piezoelectric Composite

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