Design Optimisation of Acoustic Absorbers with Cross-Like Pores Via a Homogenisation Method

Q1 Arts and Humanities

Acta Acustica united with Acustica Pub Date : 2019-07-01 DOI:10.3813/AAA.919344

N. Gorbushin, V. Nguyen, S. Naili

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引用次数: 3

Abstract

Mechanical modelling and associated numerical methods are able to improve the design of absorbing materials which are otherwise difficult to accomplish through experimental studies only. In this paper, we provide an original procedure for obtaining high acoustic absorption of single and multi-layered panels with predefined microstructure. The procedure uses the homogenisation technique for obtaining effective properties of an airsaturated material and solution to acoustic problems. We study a certain topology of the material and point out the effect of matrix material stiffness on the results of the optimisation procedure. We demonstrate that for stiff and rigid frames of a single layer, the optimal design parameters do not differ much whereas for the soft frames, the same results may significantly change. Moreover, we show that the absorption properties can be essentially improved by arrangements of different materials (soft, stiff and air) in sandwich panels. It is also possible to design a material which efficiently absorbs acoustic energy at low frequencies which is hard to achieve by means of conventional materials.

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基于均匀化方法的交叉孔吸声器优化设计

力学建模和相关的数值方法能够改进吸波材料的设计，否则仅通过实验研究难以完成。在本文中，我们提供了一种获得具有预定义微观结构的单层和多层板的高吸声的原始方法。该程序使用均质化技术来获得空气饱和材料的有效特性和声学问题的解决方案。我们研究了材料的某种拓扑结构，并指出了基体材料刚度对优化结果的影响。我们证明，对于刚性和刚性单层框架，最优设计参数差异不大，而对于软框架，相同的结果可能会发生显着变化。此外，我们还表明，通过在夹层板中布置不同的材料(软、硬和空气)，可以从根本上改善吸收性能。设计一种有效吸收低频声能的材料也是可能的，这是传统材料难以实现的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Acustica united with Acustica 物理-声学

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

6.8 months

期刊介绍： Cessation. Acta Acustica united with Acustica (Acta Acust united Ac), was published together with the European Acoustics Association (EAA). It was an international, peer-reviewed journal on acoustics. It published original articles on all subjects in the field of acoustics, such as • General Linear Acoustics, • Nonlinear Acoustics, Macrosonics, • Aeroacoustics, • Atmospheric Sound, • Underwater Sound, • Ultrasonics, • Physical Acoustics, • Structural Acoustics, • Noise Control, • Active Control, • Environmental Noise, • Building Acoustics, • Room Acoustics, • Acoustic Materials and Metamaterials, • Audio Signal Processing and Transducers, • Computational and Numerical Acoustics, • Hearing, Audiology and Psychoacoustics, • Speech, • Musical Acoustics, • Virtual Acoustics, • Auditory Quality of Systems, • Animal Bioacoustics, • History of Acoustics.