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Estimation of acoustic absorption in porous materials based on visco-thermal boundary layers modeled as boundary conditions

Mark J. Cops, J. Gregory McDaniel, Elizabeth A. Magliula, David J. Bamford, Martin Berggren

2020The Journal of the Acoustical Society of America11 citationsDOI

Abstract

A method for estimating acoustic absorption in porous materials is presented in which the thermal and viscous boundary layers are modeled through boundary conditions to the Helmholtz equation for the acoustic pressure. The method is proposed for rigid-framed porous materials in which vibration of the frame is negligible compared to pressure fluctuations in air. The method reduces computation times by 2 orders of magnitude compared to a full thermoviscous acoustic solver. Furthermore, the method is shown to be highly accurate over geometrical features and frequencies of interest as long as thermal and viscous boundary layers do not overlap and the effects of the sharp changes in curvature are negligible. The method is demonstrated for a periodic sound absorber from the literature as well as a sound absorber with a randomly graded microstructure.

Topics & Concepts

Materials sciencePorous mediumAcousticsMechanicsBoundary value problemCurvatureBoundary (topology)Absorption (acoustics)PorositySolverHelmholtz free energyThermalSound pressurePhysicsComposite materialMathematical analysisThermodynamicsGeometryMathematicsMathematical optimizationAcoustic Wave Phenomena ResearchWind and Air Flow StudiesFluid Dynamics and Vibration Analysis
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