Texture-driven elastohydrodynamic bouncing

Thibault Chastel, Philippe Gondret and Anne Mongruel : Journal of Fluid Mechanics, Volume 805 October 2016, pp. 577-590

We investigate in detail the dynamics of bouncing of a fluid-immersed solid sphere onto a textured wall at moderate Reynolds and Stokes numbers. Using high-frequency interferometric measurements, the dynamics of the sphere is resolved in time and space, before, during and after collision with the wall. The critical Stokes number for bouncing is shown to be significantly influenced by the geometry of the texture, i.e. the surface fraction and the height of the micro-pillars. A modified Hertz model is developed to take into account the influence of this texture geometry on the collision dynamics. The predicted scaling for the collision time and penetration depth of the sphere into the textured wall is found to be in good agreement with the experimental measurements.


Haut de page



À lire aussi...

Capillary driven fragmentation of large gas bubbles in turbulence

Aliénor Rivière, Daniel J. Ruth, Wouter Mostert, Luc Deike, and Stéphane Perrard Phys. Rev. Fluids 7, 083602 – Published 30 August 2022 : article (...) 

> Lire la suite...

Periodicity in fields of elongating dunes

By C. Gadal, C. Narteau, S. Courrech du Pont, O. Rozier and P. Claudin in Geology (2020) 48 (4) : 343–347. Dune fields are commonly associated (...) 

> Lire la suite...

 

Informations Pratiques

Laboratoire : 01 40 79 45 22
Directeur : Damien Vandembroucq
Codirecteur : Philippe Petitjeans
Administratrice : Frédérique Auger (01 40 79 45 22)
Gestionnaire : Claudette Barez (01 40 79 58 53)
Courriel : dir (arobase) pmmh.espci.fr