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Literature DB >> 26196829

Underlying Asymmetry within Particle Size Segregation.

K van der Vaart¹, P Gajjar², G Epely-Chauvin¹, N Andreini¹, J M N T Gray², C Ancey¹.

Abstract

We experimentally study particle scale dynamics during segregation of a bidisperse mixture under oscillatory shear. Large and small particles show an underlying asymmetry that is dependent on the local particle concentration, with small particles segregating faster in regions of many large particles and large particles segregating slower in regions of many small particles. We quantify the asymmetry on bulk and particle scales, and capture it theoretically. This gives new physical insight into segregation and reveals a similarity with sedimentation, traffic flow, and particle diffusion.

Year: 2015 PMID： 26196829 DOI： 10.1103/PhysRevLett.114.238001

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Underlying Asymmetry within Particle Size Segregation.

1. Continuum modelling of segregating tridisperse granular chute flow.

2. Multiscale Brazil nut effects in bioturbated sediment.

3. A conveyor belt experimental setup to study the internal dynamics of granular avalanches.

4. Dynamic X-ray radiography reveals particle size and shape orientation fields during granular flow.

5. Geological implication of grain-size segregation in dense granular matter.

6. Size segregation of irregular granular materials captured by time-resolved 3D imaging.

7. River-bed armouring as a granular segregation phenomenon.