Some numerical solutions are presented which describe the flow in the vicinity of a collapsing spherical bubble in water. The bubble is assumed to contain a small amount of gas and the solutions are taken beyond the point where the bubble reaches its minimum radius up to the stage where a pressure wave forms which propagates outwards into the liquid. The motion during collapse, up to the point where the minimum radius is attained, is determined by solving the equations of motion both in the Lagrangian and in the characteristic form. These are found to be in good agreement with each other and also with the approximate theory of Gilmore which is shown to be accurate over a wide range of Mach number. The liquid flow during the rebound, which o...
Cavitation bubble collapse close to a submerged sphere on a microscale is investigated numerically u...
The effect of liquid compressibility on the dynamics of a single, spherical cavitating bubble is stu...
Vapour bubble collapse problems lacking spherical symmetry are solved here using a numerical method ...
This paper presents numerical solutions for the flow in the vicinity of a collapsing spherical bubbl...
In liquid flow, the liquid vaporizes when the pressure drops below vapor pressure and cavities form....
In this study, a single cavitation bubble is generated by rotating a U-tube filled with water. A ser...
The determination of the stresses produced by cavity collapse has been of interest since Rayleigh's ...
Spherically collapsing cavitation bubbles produce a shock wave followed by a rebound bubble. Here we...
When a gas bubble in a liquid interacts with an acoustic wave near a solid surface, the bubble first...
Cavitation bubbles are widely observed in a variety of applications, from naval engineering to biome...
The present paper focuses on the simulation of the expansion and aspherical collapse of a laser-gene...
International audienceThis research is devoted to understanding the physical mechanism of cavitation...
Cavitation is described by formation and collapse of the bubbles in a liquid when the ambient pressu...
International audienceThe motivation behind this research lies in understanding the physical mechani...
http://deepblue.lib.umich.edu/bitstream/2027.42/6657/5/bac9292.0001.001.pdfhttp://deepblue.lib.umich...
Cavitation bubble collapse close to a submerged sphere on a microscale is investigated numerically u...
The effect of liquid compressibility on the dynamics of a single, spherical cavitating bubble is stu...
Vapour bubble collapse problems lacking spherical symmetry are solved here using a numerical method ...
This paper presents numerical solutions for the flow in the vicinity of a collapsing spherical bubbl...
In liquid flow, the liquid vaporizes when the pressure drops below vapor pressure and cavities form....
In this study, a single cavitation bubble is generated by rotating a U-tube filled with water. A ser...
The determination of the stresses produced by cavity collapse has been of interest since Rayleigh's ...
Spherically collapsing cavitation bubbles produce a shock wave followed by a rebound bubble. Here we...
When a gas bubble in a liquid interacts with an acoustic wave near a solid surface, the bubble first...
Cavitation bubbles are widely observed in a variety of applications, from naval engineering to biome...
The present paper focuses on the simulation of the expansion and aspherical collapse of a laser-gene...
International audienceThis research is devoted to understanding the physical mechanism of cavitation...
Cavitation is described by formation and collapse of the bubbles in a liquid when the ambient pressu...
International audienceThe motivation behind this research lies in understanding the physical mechani...
http://deepblue.lib.umich.edu/bitstream/2027.42/6657/5/bac9292.0001.001.pdfhttp://deepblue.lib.umich...
Cavitation bubble collapse close to a submerged sphere on a microscale is investigated numerically u...
The effect of liquid compressibility on the dynamics of a single, spherical cavitating bubble is stu...
Vapour bubble collapse problems lacking spherical symmetry are solved here using a numerical method ...