锆钛酸铅和聚偏氟乙烯微尺度超声特性建模与仿真

Parthipan Rajendraseelan, Thasankithan Vijayasingam, Upali Adikary
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引用次数: 0

摘要

采用有限元分析方法对聚偏氟乙烯(PVDF)和锆钛酸铅(PZT)的微型超声发生器和接收器进行了建模和仿真。当选择pzt - 5h作为超声波发生器和接收器时,确定发生器和接收器的共振频率分别为15 MHz和13 MHz,并在13 MHz频率下进行仿真以产生超声波。此外,当采用PVDF作为接收材料时,确定其共振频率为10 MHz,因此在10 MHz下进行仿真。当选择PVDF作为超声波发生器时,无论使用何种接收器材料(PVDF和PZT-5H),共振频率保持不变(5 MHz)。然后将产生的超声波定向到超声波接收器上产生电势。为了比较和验证接收端感应电压,利用压电本构方程推导了数学方程。PVDF作为接收器时产生的电压值高于PZT-5H。另一方面,当PZT-5H作为超声波发生器工作时,它在接收器上产生更高的电压。
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Modeling and Simulation of Micro Size Ultrasonic Characteristics of Lead Zirconate Titanate and Polyvinylidene Fluoride
This study was focused on modeling and simulation of micro size ultrasonic generator and receiver of polyvinylidene fluoride (PVDF) and lead zirconate titanate (PZT) using finite element analysis (FEA). When PZT-5 H was selected as both ultrasonic generator and receiver, the resonance frequency of the generator and receiver were determined as 15 MHz and 13 MHz respectively and the simulation was performed at 13 MHz frequency to generate ultrasonic wave. In addition to that, when PVDF was utilized as the receiver material its resonance frequency was determined as 10 MHz and therefore simulation was performed at 10 MHz. The resonance frequency remains the same (5 MHz) When PVDF was selected as an ultrasonic generator with whatever receiver materials (PVDF and PZT-5H) used. Then the generated ultrasonic wave was directed to hit the ultrasonic receiver to generate electric potential. To compare and validate the induced voltage across the receiver mathematical equation was derived using piezoelectric constitutive equations. When PVDF worked as receiver it generated higher voltage value than PZT-5H. On the other hand, when PZT-5H worked as an ultrasonic generator, it induced higher voltage across the receiver.
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