Author:
PIRIZ A. R.,LÓPEZ CELA J. J.,SERNA MORENO M. C.,TAHIR N. A.,HOFFMANN D. H. H.
Abstract
We perform the analysis of the Rayleigh–Taylor instability of
thin perfectly elastic solid plates using the analytical approach recently
developed by Piriz and coworkers. The model describes the evolution of the
perturbation amplitude from the initial conditions and at relatively long
times it yields the asymptotic growth rate. It applies to
solid/inviscid fluid interfaces. For the particular case of
solid/vacuum interface, the model has been compared with the exact
results by Plohr and Sharp and an excellent agreement has been found. In
general, thinner plates are found to be more unstable and, in the presence
of a fluid below the elastic plate, the growth rate is reduced.
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Atomic and Molecular Physics, and Optics
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