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Paper detail

Curvature suppresses the Rayleigh-Taylor instability

The dynamics of a thin liquid film on the underside of a curved cylindrical substrate is studied. The evolution of the liquid layer is investigated as the film thickness and the radius of curvature of the substrate are varied. A dimensionless parameter (a modified Bond number) that incorporates both geometric parameters, gravity, and surface tension is identified, and allows the observations to be classified according to three different flow regimes: stable films, films with transient growth of perturbations followed by decay, and unstable films. Experiments and theory confirm that, below a critical value of the Bond number, curvature of the substrate suppresses the Rayleigh-Taylor instability.

preprint2014arXivOpen access
Philippe H. TrinhHyoungsoo KimNaima HammoudPeter D. HowellS. Jonathan ChapmanHoward A. Stone
physics.flu-dyn
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Philippe H. TrinhHyoungsoo KimNaima HammoudPeter D. HowellS. Jonathan ChapmanHoward A. Stone

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