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A fractal classification of the drainage dynamics in thin liquid films

It is demonstrated that the dynamic structure is very important for the rate of drainage of a thin liquid film and it can be effectively taken into account by a dynamic fractal dimension. It is shown that the latter is a powerful tool for description of the film drainage and classifies all the known results from the literature. The obtained general expression for the thinning rate is a heuristic one and predicts variety of drainage models, which are even difficult to simulate in practice. It is a typical example of a scaling law, which explains the origin of the complicate dependence of the thinning rate on the film radius.

preprint2015arXivOpen access
R. TsekovE. Evstatieva
cond-mat.mes-hallcond-mat.softphysics.flu-dyn
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R. TsekovE. Evstatieva

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