Numerical and Experimental Study of a Phononic-Fluidic Sensor Using a Cubic Unit Cell with Spherical Void

2021 IEEE Sensors Pub Date : 2021-10-31 DOI:10.1109/SENSORS47087.2021.9639587
Y. Belahurau, J. S. Jensen, F. Lucklum
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引用次数: 1

Abstract

This paper presents a design study of a phononic-fluidic cavity sensor to measure volumetric properties of different liquids. A 3D finite element model shows that the sensor performance drastically depends on the lattice constant of a phononic crystal unit cell. As a result, the numerical model predicts the quality factor up to 200. As proof of concept, we fabricated several sensors using microstereolithography printing, and performed their experimental characterization. We achieved a good match of resonance frequency in the numerical model and experiments. Our experimental results displays a quality factor up to 55, and clearly separated resonance frequencies for different liquids in the cavity, with frequency shifts corresponding to differences in density and speed of sound.
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球面孔洞立方胞体声子-流体传感器的数值与实验研究
本文介绍了一种声子-流体腔传感器的设计研究,用于测量不同液体的体积特性。三维有限元模型表明,声子晶体单元格的晶格常数对传感器性能的影响很大。结果表明,该数值模型预测的质量因子可达200。作为概念验证,我们使用微立体光刻印刷制造了几个传感器,并对其进行了实验表征。我们在数值模型和实验中获得了很好的共振频率匹配。我们的实验结果显示,质量因子高达55,并且腔内不同液体的共振频率明显分离,频率漂移对应于密度和声速的差异。
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2021 IEEE Sensors
2021 IEEE Sensors
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