The Rayleigh-like collapse of a conical bubble
The Rayleigh-like collapse of a conical bubble
Key to the dynamics of the type of bubble collapse which is associated with such phenomena as sonoluminescence and the emission of strong rebound pressures into the liquid is the role of the liquid inertia. Following the initial formulation of the collapse of an empty spherical cavity, such collapses have been termed "Rayleigh-like." Today this type of cavitation is termed "inertial," reflecting the dominant role of the liquid inertia in the early stages of the collapse. While the inertia in models of spherical bubble collapses depends primarily on the liquid, experimental control of the liquid inertia has not readily been achievable without changing the liquid density and, consequently, changing other liquid properties. In this paper, novel experimental apparatus is described whereby the inertia at the early stages of the collapse of a conical bubble can easily be controlled. The collapse is capable of producing luminescence. The similarity between the collapses of spherical and conical bubbles is investigated analytically, and compared with experimental measurements of the gas pressures generated by the collapse, the bubble wall speeds, and the collapse times.
130-142
Leighton, T.G.
3e5262ce-1d7d-42eb-b013-fcc5c286bbae
Cox, B.T.
ea093bea-c2c7-413b-8a6a-3261f5e877e1
Phelps, A.D.
3f987d72-7fdd-4282-9a58-9ec5f9effcf2
2000
Leighton, T.G.
3e5262ce-1d7d-42eb-b013-fcc5c286bbae
Cox, B.T.
ea093bea-c2c7-413b-8a6a-3261f5e877e1
Phelps, A.D.
3f987d72-7fdd-4282-9a58-9ec5f9effcf2
Leighton, T.G., Cox, B.T. and Phelps, A.D.
(2000)
The Rayleigh-like collapse of a conical bubble.
Journal of the Acoustical Society of America, 107 (1), .
(doi:10.1121/1.428296).
Abstract
Key to the dynamics of the type of bubble collapse which is associated with such phenomena as sonoluminescence and the emission of strong rebound pressures into the liquid is the role of the liquid inertia. Following the initial formulation of the collapse of an empty spherical cavity, such collapses have been termed "Rayleigh-like." Today this type of cavitation is termed "inertial," reflecting the dominant role of the liquid inertia in the early stages of the collapse. While the inertia in models of spherical bubble collapses depends primarily on the liquid, experimental control of the liquid inertia has not readily been achievable without changing the liquid density and, consequently, changing other liquid properties. In this paper, novel experimental apparatus is described whereby the inertia at the early stages of the collapse of a conical bubble can easily be controlled. The collapse is capable of producing luminescence. The similarity between the collapses of spherical and conical bubbles is investigated analytically, and compared with experimental measurements of the gas pressures generated by the collapse, the bubble wall speeds, and the collapse times.
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Published date: 2000
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Local EPrints ID: 10165
URI: http://eprints.soton.ac.uk/id/eprint/10165
ISSN: 0001-4966
PURE UUID: 76c9ba48-8fad-45d8-a880-a6b61fd6765c
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Date deposited: 19 Jan 2005
Last modified: 16 Mar 2024 02:44
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Author:
B.T. Cox
Author:
A.D. Phelps
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