Evaluation of piezocomposites for ultrasonic transducer applications - influence of the unit cell dimensions and the properties of constituents on the performance of 2-2 piezocomposites

Xuecang Geng, Q. M. Zhang

    Research output: Contribution to journalArticlepeer-review

    25 Scopus citations

    Abstract

    A theoretical model on piezoceramic polymer composites with laminar periodic structure is presented. A salient feature of this model is that it can treat explicitly how the unit cell dimensions and other material properties influence the performance of an ultrasonic transducer made of 2-2 piezocomposites. The model predicts that there exist a series of modes associated with the periodic structure of a composite, which is beyond the stop-band edge resonance prediction. One of the main concerns in designing a composite transducer is how the surface vibration profile changes with frequency and how this is influenced by the aspect ratio of the ceramic plate. It was predicted that as long as the thickness resonance is below the first lateral mode frequency, there is always a frequency f1 which is near the thickness resonance and at which the polymer and ceramic vibrate in unison. The effect of aspect ratio is to change the position of f1 with respect to the thickness resonance frequency and the bandwidth in which polymer and ceramic have nearly the same vibration amplitude and phase. It is also predicted that, when operated in a fluid medium such as water, there will be a resonance mode which has a frequency determined by the velocity of the fluid medium and the unit cell length d and is associated with the oscillation of the fluid. The behavior of a composite plate as an acoustic transmitter and receiver and the influence of the aspect ratio of the ceramic plate on them are also investigated.

    Original languageEnglish (US)
    Pages (from-to)857-872
    Number of pages16
    JournalIEEE transactions on ultrasonics, ferroelectrics, and frequency control
    Volume44
    Issue number4
    DOIs
    StatePublished - Dec 1 1997

    All Science Journal Classification (ASJC) codes

    • Instrumentation
    • Acoustics and Ultrasonics
    • Electrical and Electronic Engineering

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