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Communication Dans Un Congrès Année : 2017

Acoustic characterization of silica aerogel clamped plates for perfect absorption purpose

Résumé

Silica aerogel has been widely studied as bulk material for its extremely low density and thermal conductivity. Plates or membranes made of this extremely soft materials exhibits interesting properties for sound absorption. A novel signal processing method for the characterization of an acoustic metamaterial made of silica aerogel clamped plates is presented. The acoustic impedance of a silica aerogel clamped plate is derived from the elastic theory for the flexural waves, while the transfer matrix method is used to model reflection and transmission coefficients of a single plate. Experimental results are obtained by using an acoustic impedance tube. The difference between the measured and modeled reflexion and transmission coefficients is minimized under constraints to recover the acoustic parameters of the silica aerogel plate. Once the properties of the silica aerogel plate are obtained, the perfect absorption condition is derived by studying the reflection coefficient of a aerogel plate rigidly backed with a cavity in the complex frequency domain. Reflection measurements with a varying cavity length from 1 mm to 65 mm are performed to valid the perfect absorption condition. It is found that the use of silica aerogel plate exhibit perfect absorption condition for several configurations.
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Dates et versions

hal-02514062 , version 1 (21-03-2020)

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Alan Geslain, Vicente Romero-García, Jean-Philippe Groby, Francisco Cervera, José Sanchez-Dehesa. Acoustic characterization of silica aerogel clamped plates for perfect absorption purpose. 174th Meeting of the Acoustical Society of America, Dec 2017, New Orleans, United States. pp.2683-2683, ⟨10.1121/1.5014784⟩. ⟨hal-02514062⟩
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