Coexistence of Liquid and Solid Phases in Flowing Soft-Glassy Materials

8 May 2002

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 88 (21), 218301
https://doi.org/10.1103/physrevlett.88.218301

Abstract

Magnetic-resonance-imaging rheometrical experiments show that concentrated suspensions or emulsions cannot flow steadily at a uniform rate smaller than a critical value (

{\dot{γ}}_{c}

). As a result, a “liquid” region (sheared rapidly, i.e., at a rate larger than

{\dot{γ}}_{c}

) and a “solid” region (static) coexist. The behavior of the fluid in the liquid region follows a simple power-law model, while the extent of the solid region increases with the degree of jamming of the material.

Keywords

This publication has 22 references indexed in Scilit:

Avalanche Behavior in Yield Stress Fluids
Physical Review Letters, 2002
MRI of Couette experiments in a newly developed shear device — suitable for pastes and concentrated suspensions?
Journal of Non-Newtonian Fluid Mechanics, 2001
Rheological Aging and Rejuvenation in Microgel Pastes
Physical Review Letters, 2000
Semi-inclusive deep inelastic lepton scattering off complex nuclei
The European Physical Journal A, 1999
Mode-Coupling Theory for the Pasty Rheology of Soft Glassy Materials
Physical Review Letters, 1998
Nuclear-magnetic-resonance-imaging-based capillary rheometer
AIChE Journal, 1997
Two-Phase Shear Band Structures at Uniform Stress
Physical Review Letters, 1997
Elasticity of Compressed Emulsions
Physical Review Letters, 1995
Scaling concepts in suspension rheology
Journal of Rheology, 1990
Rheology of concentrated dispersions
Advances in Colloid and Interface Science, 1976

Cited by 300 articles