Jamming transition in Couette shear
ORAL
Abstract
We study the jamming transition with a novel Couette experimental apparatus, which allows us to shear an ideal 2D photoelastic granular system. The photoelastic particles are suspended in a density matched fluid, so that there is no basal friction. We simultaneously record the particle positions and photoelastic response over a range of shear rates. The photoelastic data provide grain scale forces on the particles. The macroscale shear stress is obtained by a torque sensor. We study the correlation between the granular scale pressure from the photoelasic response, and macroscale shear stress during the shear jamming transition. We also determine the coarse-grained strain field, which shows novel convective flow over large strains.
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Presenters
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Meimei Wang
Duke University; University of Science and Technology Beijing
Authors
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Meimei Wang
Duke University; University of Science and Technology Beijing
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Hu Zheng
Hohai University, Hohai University (currently Duke Univ.), Dept. of Physics, Duke Univ, Duke University, Hohai University/Duke University, Physics, Duke University
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Jonathan Bares
CNRS, Duke University; Universit'e de Montpellier, Physics, Duke University, Université de Montpellier
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Dong Wang
Duke Univ, Duke University, Department of Physics, Duke Univ
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Robert Behringer
Duke Univ, Physics, Duke University, Dept. of Physics, Duke Univ, Duke University, Department of Physics, Duke Univ, Physics Department, Duke Univ., Phsyics, Duke University, Physics Department, Duke Univ