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Bouncing motion of spherical particles in fluids

โœ Scribed by Gondret, P.; Lance, M.; Petit, L.

Book ID
120173127
Publisher
American Institute of Physics
Year
2002
Tongue
English
Weight
437 KB
Volume
14
Category
Article
ISSN
1070-6631

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โœฆ Synopsis

We investigate experimentally the bouncing motion of solid spheres onto a solid plate in an ambient fluid which is either a gas or a liquid. In particular, we measure the coefficient of restitution e as a function of the Stokes number, St, ratio of the particle inertia to the viscous forces. The coefficient e is zero at small St, increases monotonically with St above the critical value Stc and reaches an asymptotic value at high St corresponding to the classical โ€œdryโ€ value emax measured in air or vacuum. This behavior is observed for a large range of materials and a master curve e/emax=f(St) is obtained. If gravity is sufficient to describe the rebound trajectory (after the collision) in a gas, this is not the case in a liquid where drag and added-mass effect are important but not sufficient: History forces are shown to be non-negligible even at large Reynolds number.

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