C. Henrique, G. Batrouni, D. Bideau
Published 2000-03-22Version 1
We present several numerical results on granular mixtures. In particular, we examine the efficiency of diffusion as a mixing mechanism in these systems. The collisions are inelastic and to compensate the energy loss, we thermalize the grains by adding a random force. Starting with a segregated system, we show that uniform agitation (heating) leads to a uniform mixture of grains of different sizes. We define a characteristic mixing time, $\tau_{mix}$, and study theoretically and numerically its dependence on other parameters like the density. We examine a model for bidisperse systems for which we can calculate some physical quantities. We also examine the effect of a temperature gradient and demonstrate the appearance of an expected segregation.
Comments: 15 eps figures, included
Far-from-equilibrium growth of thin films in a temperature gradient
H theorem for contact forces in granular materials
Different measures for characterizing the motion of molecules along a temperature gradient
