Your search keyword '"Ciamarra, M. Pica"' showing total 2 results

1. Shear- and vibration-induced order-disorder transitions in granular media.

Author

Ciamarra, M. Pica, Coniglio, A., De Martino, D., and Nicodemi, M.

Subjects

*GRANULAR materials, *MOLECULAR dynamics, *AMPLITUDE modulation, *VIBRATION (Mechanics), *THERMAL analysis

Abstract

By molecular dynamics simulations we investigate the order-disorder transitions induced in granular media by an applied drive combining vibrations and shear. As the steady state is attained, the pack is found in disordered configurations for comparatively high intensities of the drive; conversely, ordering and packing fractions exceeding the random close packing are found when vibrations and shear are weak. As forcing amplitudes get smaller, we find diverging time scales in the dynamics, as the system enters a jamming region. Under this perspective, our picture supports the intuition that externally applied forcing has, in driven granular media, a role similar to temperature in thermal systems. [ABSTRACT FROM AUTHOR]

Published

2007

2. Phenomenology and theory of horizontally oscillated granular mixtures.

Author

Ciamarra, M. Pica, Coniglio, A., and Nicodemi, M.

Subjects

*GRANULAR materials, *THERMAL properties, *OSCILLATIONS, *PHENOMENOLOGY, *PHYSICS

Abstract

We overview the physics of a granular mixture subject to horizontal oscillations, recently investigated via experiments and molecular dynamics simulations. First we discuss the rich phenomenology exhibited by this system, which encompasses both segregation and dynamical instabilities. Then we show that the phenomenology can be explained via an effective interaction approach, by which the driven, non-thermal, granular mixture in mapped into a monodispersed thermal system of particles interacting via an effective potential. After determining the effective interaction we discuss its microscopic origin and investigate how it induces the observed phenomenology. Finally, as much as in thermal fluids, from the effective interaction we derive a Cahn-Hilliard dynamics equation, which appears to capture the essential characteristics of the dynamics of the granular mixture. [ABSTRACT FROM AUTHOR]

Published

2007