Takashi Shimada, Dirk Kadau, Troy Shinbrot, Hans J. Herrmann
Published 2009-11-06Version 1
We study a simple model of periodic contraction and extension of large intruders in a granular bed to understand the mechanism for swimming in an otherwise solid media. Using an event-driven simulation, we find optimal conditions that idealized swimmers must use to critically fluidize a sand bed so that it is rigid enough to support a load when needed, but fluid enough to permit motion with minimal resistance. Swimmers - or other intruders - that agitate the bed too rapidly produce large voids that prevent traction from being achieved, while swimmers that move too slowly cannot travel before the bed re-solidifies around them i.e., the swimmers locally probe the fundamental time-scale in a granular packing.
Journal: Physical Review E 80, 020301 (2009)
Tailoring the frictional properties of granular media
Anisotropy in granular media: classical elasticity and directed force chain network
Statistical Mechanics of jamming and segregation in granular media
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