The capillarity driven evolution with slip of a thin liquid film over a dry surface is considered in the regime of “partial wetting”. The focus is on the simplest model case of a constant, non-zero dynamic contact angle in the lubrication approximation. For the analytical treatment of the corresponding free boundary problem, a new strategy is proposed, based on the introduction of an ad-hoc class of disjoining pressures which tend to concentrate at triple junctions. A first investigation of this approach yields the existence of weak solutions which satisfy the dissipation relation as an inequality and which are different from those with zero contact angle. A heuristic argument is also presented in order to clarify the connection between contact angle and dissipation relation: it shows that moving droplets which satisfy the dissipation relation as an equality are forced to have the prescribed contact angle.
Thin-film equations with "partial wetting" energy: existence of weak solutions / M., Bertsch; Giacomelli, Lorenzo; G., Karali. - In: PHYSICA D-NONLINEAR PHENOMENA. - ISSN 0167-2789. - STAMPA. - 209:(2005), pp. 17-27. [10.1016/j.physd.2005.06.012]
Thin-film equations with "partial wetting" energy: existence of weak solutions
GIACOMELLI, Lorenzo;
2005
Abstract
The capillarity driven evolution with slip of a thin liquid film over a dry surface is considered in the regime of “partial wetting”. The focus is on the simplest model case of a constant, non-zero dynamic contact angle in the lubrication approximation. For the analytical treatment of the corresponding free boundary problem, a new strategy is proposed, based on the introduction of an ad-hoc class of disjoining pressures which tend to concentrate at triple junctions. A first investigation of this approach yields the existence of weak solutions which satisfy the dissipation relation as an inequality and which are different from those with zero contact angle. A heuristic argument is also presented in order to clarify the connection between contact angle and dissipation relation: it shows that moving droplets which satisfy the dissipation relation as an equality are forced to have the prescribed contact angle.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
