Mark Swift scite author profile

The majority of realistic porous materials are composed of pores of which the shape is variable and the size of the pores normally obeys a distinctive statistical distribution. Although the variation of pore shape is less important, the statistical parameters of pore size distribution can have a considerable effect on the acoustic properties of porous media. This paper discusses the application of a simple model for the prediction of the acoustic properties of porous granular media with some assumed pore geometry and pore size distribution close to log-normal. The model is based on the rational (Padé) approximation approach [K. V. Horoshenkov, K. Attenborough, and S. N. Chandler-Wilde, J. Acoust. Soc. Am. 104, 1198-1209 (1998)] which has been developed for some simple pore geometries. It is shown that the experimentally determined pore size distribution for a representative range of granular materials is often close to log-normal. This assumption enables accurate predictions of the acoustic performance of these materials using the presented model. The water suction method is proposed to determine the parameters of the log-normal distribution, which are the mean pore size, (phi) and its standard deviation, sigma. This method is nonacoustic, modelless and well-adapted to acoustic materials and, unlike the BET method [S. Brunauer, P. H. Emmett, and E. Teller, J. Am. Chem. Soc. 60, 309-319 (1938)], is easy to reproduce in any basic acoustic laboratory requiring no expensive parts or chemicals. The proposed Padé approximation is based entirely on four measurable nonacoustic parameters, the porosity, omega, flow resistivity, Rb, tortuosity, q2 and the standard deviation of the pore size, sigma. The method is successfully tested on a representative selection of consolidated and nonconsolidated porous granular materials.

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The effect of consolidation on the acoustic properties of loose rubber granulates

Horoshenkov

Swift

2001

Applied Acoustics

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Impact sound insulation and viscoelastic properties of underlay manufactured from recycled carpet waste

et al. 2005

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The Vibrational Response of a Clamped Rectangular Porous Plate

Leclaire

Horoshenkov

Swift

et al. 2001

Journal of Sound and Vibration

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Mark Swift

Acoustic absorption in re-cycled rubber granulate

The acoustic properties of granular materials with pore size distribution close to log-normal

The effect of consolidation on the acoustic properties of loose rubber granulates

Impact sound insulation and viscoelastic properties of underlay manufactured from recycled carpet waste

The Vibrational Response of a Clamped Rectangular Porous Plate

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