Three-dimensional shear in granular flow
Soft Condensed Matter
2016-08-16 v3
Abstract
The evolution of granular shear flow is investigated as a function of height in a split-bottom Couette cell. Using particle tracking, magnetic-resonance imaging, and large-scale simulations we find a transition in the nature of the shear as a characteristic height is exceeded. Below there is a central stationary core; above we observe the onset of additional axial shear associated with torsional failure. Radial and axial shear profiles are qualitatively different: the radial extent is wide and increases with height while the axial width remains narrow and fixed.
Cite
@article{arxiv.cond-mat/0507469,
title = {Three-dimensional shear in granular flow},
author = {Xiang Cheng and Jeremy B. Lechman and Antonio F. Barbero and Gary S. Grest and Heinrich M. Jaeger and Greg S. Karczmar and Matthias E. Möbius and Sidney R. Nagel},
journal= {arXiv preprint arXiv:cond-mat/0507469},
year = {2016}
}
Comments
4 pages, 5 figures