Maximal deformation of an impacting drop

Christophe Clanet; Cédric Béguin; Denis Richard; David Quéré

doi:10.1017/S0022112004000904

Maximal deformation of an impacting drop

Christophe Clanet
, Cédric Béguin
, Denis Richard
, David Quéré

Aix-Marseille Université
Collège de France

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We first study the impact of a liquid drop of low viscosity on a super-hydrophobic surface. Denoting the drop size and speed as D ₀ and U₀, we find that the maximal spreading D_max scales as D₀ We^1/4 where We is the Weber number associated with the shock (We≡_ρU ₀²D₀/σ where ρ and σ 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.

langue originale	Anglais
Pages (de - à)	199-208
Nombre de pages	10
journal	Journal of Fluid Mechanics
Volume	517
Les DOIs	https://doi.org/10.1017/S0022112004000904
état	Publié - 25 oct. 2004
Modification externe	Oui

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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 D 0 and U0, we find that the maximal spreading Dmax scales as D0 We1/4 where We is the Weber number associated with the shock (We≡ρU 02D0/σ where ρ and σ 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.",

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AU - Clanet, Christophe

AU - Béguin, Cédric

AU - Richard, Denis

AU - Quéré, David

PY - 2004/10/25

Y1 - 2004/10/25

N2 - We first study the impact of a liquid drop of low viscosity on a super-hydrophobic surface. Denoting the drop size and speed as D 0 and U0, we find that the maximal spreading Dmax scales as D0 We1/4 where We is the Weber number associated with the shock (We≡ρU 02D0/σ where ρ and σ 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.

AB - We first study the impact of a liquid drop of low viscosity on a super-hydrophobic surface. Denoting the drop size and speed as D 0 and U0, we find that the maximal spreading Dmax scales as D0 We1/4 where We is the Weber number associated with the shock (We≡ρU 02D0/σ where ρ and σ 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.

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JO - Journal of Fluid Mechanics

JF - Journal of Fluid Mechanics

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Maximal deformation of an impacting drop

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