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Communication Dans Un Congrès Année : 2013

Acoustics of liquid foams: dispersion and resonance effects explained by a mean-field approach

Juliette Pierre
Jérôme Crassous
Benjamin Dollet

Résumé

Liquid foams are known to be excellent acoustic insulators and used as such e.g. in military context, but there is no clear physical picture even at low driving pressure. To resolve this issue, we perform systematic measurements of the speed of sound and attenuation through both commercial and home-made (e.g. SDS-based) foams. We use different, complementary setups, based either on different ultrasonic transducers [1,2] to cover a large range of ultrasonic frequencies f (40-600 kHz). We quantify the influence of the bubble size a (15-200 μm), thanks to the natural coarsening of an ageing foam. Since the acoustic wavelength is much larger than the bubble size in this parameter range, we develop a mean-field model based on the coupled dynamics of a soap film and a Plateau border, the two items constituting the liquid network of a foam. This model system displays a resonance frequency inversely proportional to the film radius. Below resonance, the film and the Plateau border oscillate similarly, which justifies an effective medium approach. Above resonance, only the films move significantly. Our model quantitatively explains the highly dispersive and complex acoustic behaviour that our experiments reveal for the first time: low speed of sound at small frequency and bubble size; large speed of sound just below that of air at large frequency and bubble size; and a transition regime with maxima both for the speed of sound and attenuation. This study opens the way to new, non-invasive characterisations of foams, and brings new insight into the rheology of soft matter at high frequency.
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Dates et versions

hal-01003049 , version 1 (09-06-2014)

Identifiants

  • HAL Id : hal-01003049 , version 1

Citer

Juliette Pierre, Arnaud Saint-Jalmes, Jérôme Crassous, Benjamin Dollet, Valentin Leroy. Acoustics of liquid foams: dispersion and resonance effects explained by a mean-field approach. international soft matter conference, Sep 2013, rome, Italy. ⟨hal-01003049⟩
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