Journal ArticleDOI
Maximal deformation of an impacting drop
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TLDR
In this article, the impact of a liquid drop of low viscosity on a super-hydrophobic surface was studied. But the authors focused on the effect of the drop on the spread of the liquid on the surface.Abstract:
We first study the impact of a liquid drop of low viscosity on a super-hydrophobic surface. Denoting the drop size and speed as are the liquid density and surface tension). This law is also observed to hold on partially wettable surfaces, provided that liquids of low viscosity (such as water) are used. The law is interpreted as resulting from the effective acceleration experienced by the drop during its impact. Viscous drops are also analysed, allowing us to propose a criterion for predicting if the spreading is limited by capillarity, or by viscosity.read more
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Spreading and oscillation dynamics of drop impacting liquid film
TL;DR: In this paper, the effects of impact inertia, film thickness and viscosity on the dynamics of shape deformation of a drop impacting a liquid film were explored. And the authors found that the spreading dynamics showed a weak dependence on impact inertia but strongly depends on the film thickness.
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Drop impacting on a surface with adjustable wettability based on the dielectrowetting effect
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Getting in shape: molten wax drop deformation and solidification at an immiscible liquid interface.
TL;DR: This paper investigates the deformation and simultaneous solidification of millimeter size molten wax drops as they impacted an immiscible liquid interface of higher density and elucidate the delicate balance of interfacial, inertial, viscous, and thermal forces that determine the final morphology of wax particles.
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How Wettability Controls Nanoprinting.
TL;DR: In this paper, the authors study the impact of nanometer droplets of low viscosity on flat substrates versus the wettability of the solid plate and propose a new scaling for the time required to reach the maximal contact diameter.
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Nonwettable Hierarchical Structure Effect on Droplet Impact and Spreading Dynamics.
Hyungmo Kim,Seol Ha Kim +1 more
TL;DR: The hierarchical effect from the dual-scale structure on droplet spreading dynamics has been discussed through a balance between capillary pressure induced by the structure and the dynamic pressure of droplet impact.