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关于无附加质量的平板型和膜型声学超材料有效密度的评估

On the evaluation of effective density for plate- and membrane-type acoustic metamaterials without mass attached.

作者信息

Huang Tai-Yun, Shen Chen, Jing Yun

机构信息

Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, North Carolina 27695, USA.

出版信息

J Acoust Soc Am. 2016 Aug;140(2):908. doi: 10.1121/1.4960590.

Abstract

The effective densities of plate- and membrane-type acoustic metamaterials (AMMs) without mass attached are studied theoretically and numerically. Three models, including the analytic model (based on the plate flexural wave equation and the membrane wave equation), approximate model (under the low frequency approximation), and the finite element method (FEM) model, are first used to calculate the acoustic impedance of square and clamped plates or membranes. The effective density is then obtained using the resulting acoustic impedance and a lumped model. Pressure transmission coefficients of the AMMs are computed using the obtained densities. The effect of the loss from the plate is also taken into account. Results from different models are compared and good agreement is found, particularly between the analytic model and the FEM model. The approximate model is less accurate when the frequency of interest is above the first resonance frequency of the plate or membrane. The approximate model, however, provides simple formulae to predict the effective densities of plate- or membrane-type AMMs and is accurate for the negative density frequency region. The methods presented in this paper are useful in designing AMMs for manipulating acoustic waves.

摘要

对未附加质量的平板型和薄膜型声学超材料(AMM)的有效密度进行了理论和数值研究。首先使用三种模型,包括解析模型(基于平板弯曲波动方程和薄膜波动方程)、近似模型(在低频近似下)和有限元方法(FEM)模型,来计算方形和夹紧平板或薄膜的声阻抗。然后使用所得声阻抗和集总模型获得有效密度。利用获得的密度计算AMM的压力传输系数。还考虑了平板损耗的影响。比较了不同模型的结果,发现吻合度良好,特别是解析模型和FEM模型之间。当感兴趣的频率高于平板或薄膜的第一共振频率时,近似模型的准确性较低。然而,近似模型提供了预测平板型或薄膜型AMM有效密度的简单公式,并且在负密度频率区域是准确的。本文提出的方法有助于设计用于操纵声波的AMM。

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