The fast dynamics of cavitation bubbles within water confined in elastic solids

Vincent, Olivier; Marmottant, Philippe; Gonzalez-Avila, Silvestre Roberto; Ando, Keita; Ohl, Claus‐Dieter

doi:10.1039/c3sm52697f

Cited by 64 publications

(98 citation statements)

References 26 publications

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“…A typical number of oscillation cycles, which follows from the quality factor, is on the order of 10 for R b /R c = 0.3. This value is in agreement with experimental measurements [14]. As a consequence, cavitation bubbles in confinements "ring" for a significant amount of time, which makes it possible to determine the frequency with sufficient accuracy.…”

Section: Discussionsupporting

confidence: 79%

“…2 were obtained at the following values of the physical parameters: ρ 0 = 1000 kg/m 3 , c = 1500 m/s, η = 0.001 Pa s, ρ s = 1233 kg/m 3 , c s = 2111 m/s, μ = 0.74 GPa, and R c = 100 μm. These values were chosen to reproduce cavitation experiments on transparent biomimetic wood [14,15]. Fig.…”

Section: Numerical Simulationsmentioning

confidence: 99%

“…This vibration frequency was predicted using a quasistatic model [14,15], assuming that the sound wavelength is very large and thus neglecting any acoustic propagation effects.…”

Section: Introductionmentioning

confidence: 99%

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Radiation dynamics of a cavitation bubble in a liquid-filled cavity surrounded by an elastic solid

2017

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A specific cavitation phenomenon occurs inside the stems of trees. The internal pressure in tree conduits can drop down to significant negative values, which causes the nucleation of bubbles. The bubbles exhibit high-frequency oscillations just after their nucleation. In the present study, this phenomenon is modeled by taking into account acoustic waves produced by bubble oscillations. A dispersion equation is derived, which is then used to calculate the resonance frequency and the attenuation coefficient of the bubble oscillations. Radiation damping is found to be predominant in comparison with viscous damping, except for very small bubbles. A typical number of oscillation cycles before the complete damping of the oscillation is found to be of the order of 10, as observed for cavitation bubbles in biomimetic synthetic trees.

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Section: Discussionsupporting

confidence: 79%

Section: Numerical Simulationsmentioning

confidence: 99%

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Radiation dynamics of a cavitation bubble in a liquid-filled cavity surrounded by an elastic solid

2017

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“…The vibration causing the acoustic emission remains to be resolved. One relevant hypothesis is a bubble vibration: indeed, within artificial wood in hydrogel, it was found that nucleated bubbles oscillate in volume for a few periods, at a megahertz frequency linked to the compression modulus of water and the surrounding matrix [27].…”

Section: Resultsmentioning

confidence: 99%

“…It is denoted as DV/V c ¼ p/K, where K is an effective elastic bulk modulus. Because water and wood volumes are stretched in series by the same pressure, the effective modulus is K ¼ 1/(1/K water þ 1/K c ) [26,27], with the compression modulus of water K water (2.2 GPa), and a volumetric elastic modulus K c G linked to the deformation of the material surrounding the cavity (G is the elastic shear modulus of the solid material surrounding the conduit). Here, we followed [28] and we used the value of K c ¼ 0.75 GPa, typical of conifers.…”

Section: Discussionmentioning

confidence: 99%

Ultrasonic emissions reveal individual cavitation bubbles in water-stressed wood

Ponomarenko

Vincent

Pietriga

et al. 2014

J. R. Soc. Interface.

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Under drought conditions, the xylem of trees that conducts ascending sap produces ultrasonic emissions whose exact origin is not clear. We introduce a new method to record simultaneously both acoustic events and optical observation of the xylem conduits within slices of wood that were embedded in a transparent material setting a hydric stress. In this article, we resolved the rapid development of all cavitation bubbles and demonstrated that each ultrasound emission was linked to the nucleation of one single bubble, whose acoustic energy is an increasing function of the size of the conduit where nucleation occurred and also of the hydric stress. We modelled these observations by the fact that water columns in conduits store elastic energy and release it into acoustic waves when they are broken by cavitation bubbles. Water columns are thus elastic, and not rigid, 'wires of water' set under tension by hydric stresses. Cavitation bubbles are at the origin of an embolism, whose development was followed in our experiments. Such an embolism of sap circulation can result in a fatal condition for living trees. These findings provide new insights for the non-destructive monitoring of embolisms within trees, and suggest a new approach to study porous media under hydric stress.

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Impact of Cell‐wall Structure and Composition on Plant Freezing Tolerance

Panter

Knight

2020

Annual Plant Reviews Online

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The fast dynamics of cavitation bubbles within water confined in elastic solids

Cited by 64 publications

References 26 publications

Radiation dynamics of a cavitation bubble in a liquid-filled cavity surrounded by an elastic solid

Radiation dynamics of a cavitation bubble in a liquid-filled cavity surrounded by an elastic solid

Ultrasonic emissions reveal individual cavitation bubbles in water-stressed wood

Impact of Cell‐wall Structure and Composition on Plant Freezing Tolerance

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