On the acoustic transparency of perforated metal plates facing a porous fibrous material

IF 1.7 Q2 ACOUSTICS

Noise Mapping Pub Date : 2021-01-01 DOI:10.1515/noise-2021-0014

D. Borelli, C. Schenone

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引用次数: 1

Abstract

Abstract Thin impervious layers, cloths or perforated plates are usually utilized with fibrous absorbing materials in order to avoid small particles, coming from deterioration over time or from flow abrasive effect, becoming dislodged and polluting the environment. These protective facings are to be carefully considered and analyzed, since they can affect the acoustical behavior of the “backing” material. This study addresses this issue through an experimental survey and a theoretical analysis using the Transfer Matrix Method (TMM). Experiments have been performed in the frequency range 160–2,500 Hz, analyzing the different behaviors due to multiple combinations of percentage of open area and air gap between perforated facing and absorbing material. Experimental data have shown a marked effect of the percentage of perforation, at least up to a threshold value of 20%, whereas the air gap slightly affected the acoustic behavior of the covered absorbing material. The TMM was applied to the tested faced absorbing system, and experimental and theoretical results were compared, showing the good accuracy of the model. Several geometrical configurations were then modeled through TMM and the possibility of using this method in order to assess the acoustic transparency of perforated metal plates was assessed.

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多孔纤维材料表面穿孔金属板的声透明度研究

为了避免小颗粒因时间的推移而变质或流动磨蚀作用而产生位移，污染环境，通常采用纤维状吸波材料，采用薄的不透水层、布或穿孔板。这些保护面需要仔细考虑和分析，因为它们会影响“衬底”材料的声学性能。本研究通过实验调查和运用传递矩阵法(TMM)的理论分析来解决这一问题。在160 - 2500 Hz的频率范围内进行了实验，分析了穿孔表面和吸波材料之间的开放面积百分比和气隙的多种组合所导致的不同行为。实验数据表明，穿孔百分比的显著影响，至少达到20%的阈值，而气隙对覆盖吸收材料的声学行为影响较小。将该模型应用于所测试的面吸波系统，并将实验结果与理论结果进行了比较，结果表明该模型具有较好的精度。然后通过TMM模拟了几种几何构型，并评估了使用该方法评估穿孔金属板声透明度的可能性。

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

Noise Mapping ACOUSTICS-

CiteScore

7.80

自引率

17.90%

发文量

审稿时长

12 weeks

期刊介绍： Ever since its inception, Noise Mapping has been offering fast and comprehensive peer-review, while featuring prominent researchers among its Advisory Board. As a result, the journal is set to acquire a growing reputation as the main publication in the field of noise mapping, thus leading to a significant Impact Factor. The journal aims to promote and disseminate knowledge on noise mapping through the publication of high quality peer-reviewed papers focusing on the following aspects: noise mapping and noise action plans: case studies; models and algorithms for source characterization and outdoor sound propagation: proposals, applications, comparisons, round robin tests; local, national and international policies and good practices for noise mapping, planning, management and control; evaluation of noise mitigation actions; evaluation of environmental noise exposure; actions and communications to increase public awareness of environmental noise issues; outdoor soundscape studies and mapping; classification, evaluation and preservation of quiet areas.