This article is cited in 4 papers

Two-phase models of formation of cavitating spalls in a liquid

M. N. Davydov, V. K. Kedrinskii

Lavrent'ev Institute of Hydrodynamics, Siberian Division, Russian Academy of Sciences, Novosibirsk, 630090

Abstract: The dynamics of the structure of a liquid layer structure (with microbubbles of a free gas) behind a rarefaction wave front is studied numerically using the two-phase Iordansky–Kogarko–van Wijngaarden model and the “frozen” mass-velocity field model. An analysis of the initial stage of cavitation by the Iordansky–Kogarko–van Wijngaarden model showed that tensile stresses behind the rarefaction wave front relax quickly and the mass-velocity field in the cavitation zone turns out to be “frozen”. This effect is used to describe the late stage of the development of the cavitation zone. These models were combined to study the formation of cavitating spalls in a free-surface liquid under shock-wave loading.

Keywords: liquid strength, dynamic loading, bubble cavitation, spalls.

UDC: 532.5.013.2+532.528+534.222

Received: 31.03.2003

 English version: Journal of Applied Mechanics and Technical Physics, 2003, 44:5, 660–666

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