Lateral resonant modes associated with specific lateral structures in piezoceramic-polymer composites are the main drawback that interferes with performance of ultrasonic transducers utilizing the composites as driving elements. This paper presents a field solution to characterize dynamic behavior of lateral modes in composite transducers with 2-2 connectivity. The solution is derived based on a concept of Lamb wave propagation along piezoceramic and polymer layers in the thickness direction of the composite transducers. The behavior of 2-2 composite is investigated over a broad spectrum ranging from quasi-static stage up to mode transition zones. Dispersion curves for various modes were calculated and compared with experimental results. A safe zone can be identified from the dispersion curves where the interference of lateral modes to thickness oscillation is negligible. Strong interactions between thickness modes and lateral modes are observed in the transition zones where two modes merge together in the frequency domain. Electromechanical thickness coupling coefficient, k/sub t/, is calculated for the first time to include the effect of aspect ratio of the composite. Results show that the coupling coefficient, k/sub t/, varies dramatically as a function of both ceramic volume fraction and the aspect ratio. As k/sub t/ reaches its maximum value, the vibration of the ceramic phase is completely decoupled from that of the polymer phase.
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机译:与压电陶瓷-聚合物复合材料中特定横向结构相关的横向共振模式是主要缺点,它会干扰利用复合材料作为驱动元件的超声换能器的性能。本文提出了一种现场解决方案,以表征具有2-2连接性的复合换能器中横向模式的动态行为。该解决方案是基于兰姆波在复合换能器的厚度方向上沿着压电陶瓷和聚合物层传播的概念得出的。研究了2-2复合材料的行为,其范围从准静态阶段一直到模式过渡区。计算了各种模式的色散曲线,并将其与实验结果进行了比较。从色散曲线可以确定一个安全区域,其中横向模式对厚度振荡的干扰可以忽略不计。在过渡区域中观察到厚度模式和横向模式之间的强相互作用,在过渡区域中,两个模式在频域中合并在一起。首次计算机电厚度耦合系数k / sub t /,以包括复合材料长宽比的影响。结果表明,耦合系数k / sub t /随陶瓷体积分数和纵横比的变化而显着变化。当k / sub t /达到最大值时,陶瓷相的振动与聚合物相的振动完全解耦。
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