Segregation-Driven Organization in Chaotic Granular Flows

Segregation-Driven Organization in Chaotic Granular Flows

An important industrial problem that provides fascinating puzzles in pattern formation is the tendency for granular mixtures to de-mix or segregate. Small differences in either size or density lead to flow-induced segregation. Similar to fluids, noncohesive granular materials can display chaotic adv...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 1999-10, Vol.96 (21), p.11701-11706
Hauptverfasser: Hill, K. M., Khakhar, D. V., Gilchrist, J. F., McCarthy, J. J., Ottino, J. M.
Format: Artikel
Sprache:eng
Schlagworte:
Advection
Composite particles
Ellipses
Flow velocity
Granular materials
Image analysis
Particle collisions
Particle diffusion
Particle motion
Physical Sciences
Rotation
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Zusammenfassung:An important industrial problem that provides fascinating puzzles in pattern formation is the tendency for granular mixtures to de-mix or segregate. Small differences in either size or density lead to flow-induced segregation. Similar to fluids, noncohesive granular materials can display chaotic advection; when this happens chaos and segregation compete with each other, giving rise to a wealth of experimental outcomes. Segregated structures, obtained experimentally, display organization in the presence of disorder and are captured by a continuum flow model incorporating collisional diffusion and density-driven segregation. Under certain conditions, structures never settle into a steady shape. This may be the simplest experimental example of a system displaying competition between chaos and order.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.96.21.11701