Separate Determination of Liquid Properties with Lamb Wave Devices

Zhijun Chen, Tao Han, W. Shi, X. Ji, Lianger Li
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引用次数: 5

Abstract

Microacoustic sensors can be employed to measure physical, chemical and biological liquid properties. Among these sensors the potentially most sensitive is the Lamb wave device. The device is influenced by the mechanical and electrical properties of the liquid layer. Additionally, these effects on the device usually couple together. In this paper, considering the measuring of ideal nonviscous liquid, utilizing the partial wave analysis method, we give theoretical derivation and numerical simulation of three-channel Lamb wave devices for separate determination of liquid density and permittivity. Furthermore, using lithium niobate material as an example, according to sensitivity together with excitation efficiency, the optimization of the devices in singly and doubly rotated cuts for separate liquid properties sensing is presented
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兰姆波分离法测定液体性质
微声传感器可用于测量液体的物理、化学和生物性质。在这些传感器中,可能最敏感的是兰姆波装置。该装置受液体层的机械和电气性能的影响。此外,这些对设备的影响通常是耦合在一起的。本文针对理想无粘性液体的测量,利用分波分析方法,对三通道兰姆波装置分别测定液体密度和介电常数进行了理论推导和数值模拟。此外,以铌酸锂材料为例,根据灵敏度和激发效率,对单旋转切口和双旋转切口中分离液性传感器件进行了优化
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