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Energy Loss for Droplets Bouncing Off Superhydrophobic Surfaces.

Calvin ThenariantoXue Qi KohMarcus LinVille P JokinenDan Daniel
Published in: Langmuir : the ACS journal of surfaces and colloids (2023)
A water droplet can bounce off superhydrophobic surfaces multiple times before coming to a stop. The energy loss for such droplet rebounds can be quantified by the ratio of the rebound speed U R and the initial impact speed U I ; i.e., its restitution coefficient e = U R / U I . Despite much work in this area, a mechanistic explanation for the energy loss for rebounding droplets is still lacking. Here, we measured e for submillimeter- and millimeter-sized droplets impacting two different superhydrophobic surfaces over a wide range of U I (4-700 cm s -1 ). We proposed simple scaling laws to explain the observed nonmonotonic dependence of e on U I . In the limit of low U I , energy loss is dominated by contact-line pinning and e is sensitive to the surface wetting properties, in particular to contact angle hysteresis Δ cos θ of the surface. In contrast, e is dominated by inertial-capillary effects and does not depend on Δ cos θ in the limit of high U I .
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