Propagation of ultrasound in aqueous foams: Bubble size dependence and resonance effects

Imen Ben Salem; Reine Marie Guillermic; Caitlin Sample; Valentin Leroy; Arnaud Saint-Jalmes; Benjamin Dollet

doi:10.1039/c2sm25545f

Propagation of ultrasound in aqueous foams: Bubble size dependence and resonance effects

Imen Ben Salem
, Reine Marie Guillermic
, Caitlin Sample
, Valentin Leroy
, Arnaud Saint-Jalmes
, Benjamin Dollet

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We report experimental results on the propagation of ultrasonic waves (at frequencies in the range of 40 kHz) in aqueous foams. Monitoring the acoustics of the foams as they age, i.e. as the mean bubble radius increases by coarsening, we recover at short times some trends that are already known: decrease of the speed of sound and increase of attenuation. At long times, we have identified, for the first time, robust non-monotonic behaviors of the speed of sound and attenuation, associated with a critical bubble size, which decreases at increasing frequency. The experimental features appear to be surprisingly reminiscent of the Minnaert resonance known for a single isolated bubble in a fluid. Transposing the Minnaert theoretical framework to the limit of a dense packing of bubbles gives some qualitative agreement with the data, but still cannot explain quantitatively the measured properties.

langue originale	Anglais
Pages (de - à)	1194-1202
Nombre de pages	9
journal	Soft Matter
Volume	9
Numéro de publication	4
Les DOIs	https://doi.org/10.1039/c2sm25545f
état	Publié - 1 janv. 2013
Modification externe	Oui

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10.1039/c2sm25545f

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title = "Propagation of ultrasound in aqueous foams: Bubble size dependence and resonance effects",

abstract = "We report experimental results on the propagation of ultrasonic waves (at frequencies in the range of 40 kHz) in aqueous foams. Monitoring the acoustics of the foams as they age, i.e. as the mean bubble radius increases by coarsening, we recover at short times some trends that are already known: decrease of the speed of sound and increase of attenuation. At long times, we have identified, for the first time, robust non-monotonic behaviors of the speed of sound and attenuation, associated with a critical bubble size, which decreases at increasing frequency. The experimental features appear to be surprisingly reminiscent of the Minnaert resonance known for a single isolated bubble in a fluid. Transposing the Minnaert theoretical framework to the limit of a dense packing of bubbles gives some qualitative agreement with the data, but still cannot explain quantitatively the measured properties.",

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T2 - Bubble size dependence and resonance effects

AU - Ben Salem, Imen

AU - Guillermic, Reine Marie

AU - Sample, Caitlin

AU - Leroy, Valentin

AU - Saint-Jalmes, Arnaud

AU - Dollet, Benjamin

PY - 2013/1/1

Y1 - 2013/1/1

N2 - We report experimental results on the propagation of ultrasonic waves (at frequencies in the range of 40 kHz) in aqueous foams. Monitoring the acoustics of the foams as they age, i.e. as the mean bubble radius increases by coarsening, we recover at short times some trends that are already known: decrease of the speed of sound and increase of attenuation. At long times, we have identified, for the first time, robust non-monotonic behaviors of the speed of sound and attenuation, associated with a critical bubble size, which decreases at increasing frequency. The experimental features appear to be surprisingly reminiscent of the Minnaert resonance known for a single isolated bubble in a fluid. Transposing the Minnaert theoretical framework to the limit of a dense packing of bubbles gives some qualitative agreement with the data, but still cannot explain quantitatively the measured properties.

AB - We report experimental results on the propagation of ultrasonic waves (at frequencies in the range of 40 kHz) in aqueous foams. Monitoring the acoustics of the foams as they age, i.e. as the mean bubble radius increases by coarsening, we recover at short times some trends that are already known: decrease of the speed of sound and increase of attenuation. At long times, we have identified, for the first time, robust non-monotonic behaviors of the speed of sound and attenuation, associated with a critical bubble size, which decreases at increasing frequency. The experimental features appear to be surprisingly reminiscent of the Minnaert resonance known for a single isolated bubble in a fluid. Transposing the Minnaert theoretical framework to the limit of a dense packing of bubbles gives some qualitative agreement with the data, but still cannot explain quantitatively the measured properties.

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JO - Soft Matter

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Propagation of ultrasound in aqueous foams: Bubble size dependence and resonance effects

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