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Effect of Thickness and Perforation Size on the Acoustic Absorption Performance of a Micro-Perforated Panel

Yi-San Wong, Vignesh Sekar, Se Yong Eh Noum, Sivakumar Sivanesan

2021MATEC Web of Conferences11 citationsDOIOpen Access PDF

Abstract

In current times, noise pollution is especially apparent in urban areas due to rapid development in transportation, industrialization, and urbanization. The worsening noise pollution is detrimental to human health and behaviour as it can contribute to disorders and psychological disturbance. Thus, noise regulation is crucial and must be addressed with immediate effect. Micro-perforated panels (MPP) can be a potential solution to mitigate noise on a commercial scale. Researchers have addressed the mechanics behind the enhancement of acoustic absorption through micro-perforation and some suggestions have been made, such as the effect of structural variation on sound absorption performance. Hence, this research aims at optimizing the sound absorption performance of an MPP by determining the connection between thickness and perforation size with sound absorption coefficient. Three cases were considered: (i) varying perforation size, (ii) varying thickness, and (iii) varying perforation size and thickness simultaneously. Based on the Maa prediction model, the sound absorption performance for all three cases have been simulated through the MATLAB software. Results show that the increase in both thickness and perforation size together increases the peak value of sound absorption coefficient (SAC). It also shifts the peak towards the higher frequency region and narrows the bandwidth. The findings of this study indicate the potential of thick MPPs as commercial sound absorbers by adjusting the size of perforations. Thicker and sturdier MPPs with optimal acoustic resistance and reactance can act as reliable sound absorbers for sound insulation purposes.

Topics & Concepts

PerforationReactanceNoise reduction coefficientNoise pollutionMaterials scienceAcousticsAbsorption (acoustics)Noise (video)Environmental scienceComposite materialPorosityComputer scienceEngineeringNoise reductionPhysicsElectrical engineeringPunchingArtificial intelligenceVoltageImage (mathematics)Acoustic Wave Phenomena ResearchNoise Effects and ManagementStructural Engineering and Vibration Analysis
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