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Pré-Publication, Document De Travail Année : 2005

Dewetting of Thin Viscoelastic Polymer Films on Slippery Substrates

Résumé

Dewetting of thin polystyrene films deposited onto silicone wafers at temperatures close to the glass transition exhibits unusual dynamics and front morphologies. Here, we present a new theoretical approach of these phenomena taking into account both the viscoelastic properties of the film and the non-zero velocity of the film at the interface with the substrate (due to slippage). We then show how these two ingredients lead to : (a) A very asymmetric shape of the rim as the film dewetts, (b) A decrease of the dewetting velocity with time like $t^{-\frac{1}{2}}$ for times shorter than the reptation time (for larger times, the dewetting velocity reaches a constant value). Very recent experiments by Damman, Baudelet and Reiter [Phys. Rev. Lett. {\bf 91}, 216101 (2003)] present, however, a much faster decrease of the dewetting velocity. We then show how this striking result can be explained by the presence of residual stresses in the film.

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Dates et versions

hal-00004197 , version 1 (09-02-2005)
hal-00004197 , version 2 (17-02-2005)

Identifiants

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Elie Raphael, Thomas Vilmin. Dewetting of Thin Viscoelastic Polymer Films on Slippery Substrates. 2005. ⟨hal-00004197v2⟩

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