Effect of geometrical parameters and additional mass on the acoustic and vibration control of the bilayer resonant metamaterials

IF 1.2 4区工程技术 Q3 ACOUSTICS

International Journal of Aeroacoustics Pub Date : 2023-06-01 DOI:10.1177/1475472X231183158

Bingfei Liu, Yangjie Hao, Ping Chen

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引用次数: 0

Abstract

Due to the advantages of lightweight, small size, high stiffness, and adjustable parameters, plate metamaterials have shown great practical application value in the field of acoustic vibration control in engineering. For low-frequency vibration and noise control, an annular slotted bilayer plate metamaterial is designed, which can realize sound insulation and vibration reduction at 100–150 Hz (low-frequency range). By changing the geometric parameters of the annular slotted bilayer plate, the structural parameters of the additional mass, the material parameters, and its distribution position, the acting frequency band is reduced and the band gap of sound insulation and vibration reduction is widened. The integral metamaterial panels of circular and square PA12 were fabricated by 3D printing technology, and then, the acoustic and vibration characteristics were tested in the ZK1030 impedance tube system and Polytec full-field scanning laser vibration measurement system, respectively. The results show that the structure has the best performance by varying the resonant ring thickness of the lattice structure, controlling the wave incidence angle to 0°, and pointing force excitation in the X direction. However, when the mass of the additional mass block is certain, the distribution position of the mass block has less effect. The experimental result was reasonably consistent with the simulation analysis result. This work can provide a reference for the design of bilayer plate acoustic metamaterials with low-frequency broadband acoustic insulation and low-damping vibration based on periodic structures in engineering.

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几何参数和附加质量对双层谐振超材料声学和振动控制的影响

由于板材超材料具有重量轻、体积小、刚度高、参数可调等优点，在工程声振动控制领域显示出很大的实际应用价值。针对低频振动和噪声控制，设计了一种环形开槽双层板超材料，可实现100 - 150hz(低频范围)的隔声减振。通过改变环形开槽双层板的几何参数、附加质量的结构参数、材料参数及其分布位置，减小作用频带，扩大隔声减振带隙。采用3D打印技术制备了圆形和方形PA12整体超材料板，分别在ZK1030阻抗管系统和Polytec全场扫描激光振动测量系统中测试了其声学和振动特性。结果表明，通过改变晶格结构的谐振环厚度，控制波入射角为0°，并将力激励指向X方向，该结构具有最佳的性能。然而，当附加质量块的质量一定时，质量块的分布位置影响较小。实验结果与仿真分析结果基本一致。该工作可为工程中基于周期结构的低频宽带隔声低阻尼双层板声超材料的设计提供参考。

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

International Journal of Aeroacoustics ACOUSTICS-ENGINEERING, AEROSPACE

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： International Journal of Aeroacoustics is a peer-reviewed journal publishing developments in all areas of fundamental and applied aeroacoustics. Fundamental topics include advances in understanding aeroacoustics phenomena; applied topics include all aspects of civil and military aircraft, automobile and high speed train aeroacoustics, and the impact of acoustics on structures. As well as original contributions, state of the art reviews and surveys will be published. Subtopics include, among others, jet mixing noise; screech tones; broadband shock associated noise and methods for suppression; the near-ground acoustic environment of Short Take-Off and Vertical Landing (STOVL) aircraft; weapons bay aeroacoustics, cavity acoustics, closed-loop feedback control of aeroacoustic phenomena; computational aeroacoustics including high fidelity numerical simulations, and analytical acoustics.