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Issue 32, 2013
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Suppression of the Rayleigh–Plateau instability on a vertical fibre coated with wormlike micelle solutions

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Abstract

We report on the Rayleigh–Plateau instability in films of giant micelle solutions coating a vertical fibre. We observe that the dynamics of thin films coating the fibre could be very different from the Newtonian or standard non-Newtonian cases. By varying the concentration of the components of the solutions and depending on the film thickness, we show for the first time that the Rayleigh–Plateau instability can be stabilized using surfactant solutions. Using global rheology and optical visualisations, we show that the development of shear-induced structures is required to stabilize the micellar film along the fibre. Assuming that the viscoelastic properties of the shear-induced state can be described by a simple model, we suggest that, in addition to the presence of shear-induced structures, the latter must have an elastic modulus greater than a critical value evaluated from a linear stability analysis. Finally, our analysis provides a way of estimating the bulk elasticity of the shear-induced state.

Graphical abstract: Suppression of the Rayleigh–Plateau instability on a vertical fibre coated with wormlike micelle solutions

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Publication details

The article was received on 22 Dec 2012, accepted on 17 Jun 2013 and first published on 17 Jun 2013


Article type: Paper
DOI: 10.1039/C3SM27940E
Citation: Soft Matter, 2013,9, 7787-7796
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    Suppression of the Rayleigh–Plateau instability on a vertical fibre coated with wormlike micelle solutions

    F. Boulogne, M. A. Fardin, S. Lerouge, L. Pauchard and F. Giorgiutti-Dauphiné, Soft Matter, 2013, 9, 7787
    DOI: 10.1039/C3SM27940E

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