Success and breakdown of Tanner's law for drops of dense granular suspensions
ORAL
Abstract
The spreading of viscous droplets of density-matched suspensions on a solid surface is experimentally investigated at the global drop scale.
First, the spreading dynamics still obeys Tanner's law provided one uses an effective viscosity which happens to be smaller than the bulk viscosity of the suspension.
Then, when the height of the drop is of the order of the particle spacing, Tanner's law breaks down as the particles start to freeze and the pure fluid drains out of the solid matrix.
First, the spreading dynamics still obeys Tanner's law provided one uses an effective viscosity which happens to be smaller than the bulk viscosity of the suspension.
Then, when the height of the drop is of the order of the particle spacing, Tanner's law breaks down as the particles start to freeze and the pure fluid drains out of the solid matrix.
–
Presenters
-
Alice Pelosse
Laboratoire MSC, Université Paris Cité
Authors
-
Alice Pelosse
Laboratoire MSC, Université Paris Cité
-
Elisabeth L Guazzelli
Laboratoire MSC, Université Paris Cité, Université Paris Cité, CNRS, MSC
-
Matthieu Roché
Laboratoire MSC, Université Paris Cité