Research on the reverberation absorption coefficient of material measured by underwater reverberation field method

In this article, an underwater reverberation time model of a rubber board is established. Then a theory formula of reverberation time T(r m ,λ m ) is given according to the energy relation of sound field in the reverberation chamber. r m is the reflecting fraction and λ m is the absorption fraction,...

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Bibliographic Details
Main Authors: Yang Song, Zhen-qi Zhao, Wei Zhang, Sheng-qi Yu
Format: Conference Proceeding
Language:English
Subjects:
Absorption
Coefficient of absorption
Frequency measurement
Materials
Reverberation
Reverberation charm
Reverberation time
Rubber
Time measurement
Underwater reverberation field
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Summary:In this article, an underwater reverberation time model of a rubber board is established. Then a theory formula of reverberation time T(r m ,λ m ) is given according to the energy relation of sound field in the reverberation chamber. r m is the reflecting fraction and λ m is the absorption fraction, when sound wave is injected to a rubber board. r m and λ m can be resolved base on the wave theory and boundary condition. In addition, r m and λ m are related to acoustic parameters of the rubber board. T(r m ,λ m )computed by formula and reverberation time T 0 measured in underwater space without material are all taken to Eyring formula, thus reverberant absorption coefficient of measured material can be forecasted. The edge effect due to the material is avoided using this method. In the simulation results of reverberation time and sound absorption coefficient agree with fact ruler. In pool experiment, reverberation time was measured in two cases. One case is that there is only water in the experimental water area, and another case is that the sample is put in water. The measurement results of the pool show the reverberant time T(r m ,λ m )with rubber board is shorter than the reverberant time T 0 without rubber board, since absorption rubber board accelerates the speed of reverberant attenuation. The reverberant time T(r m ,λ m ) by experiment agree with the theory result. The sample frequency characteristic of the reverberation absorption coefficient accords with theory result.
DOI:10.1109/SPAWDA.2011.6167209