Abstract
We present a phenomenological model for granular suspension rheology in which particle interactions enter as constraints to relative particle motion. By considering constraints that are formed and released by stress respectively, we derive a range of experimental flow curves in a single treatment and predict singularities in viscosity and yield stress consistent with literature data. Fundamentally, we offer a generic description of suspension flow that is independent of bespoke microphysics.
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CITATION STYLE
Guy, B. M., Richards, J. A., Hodgson, D. J. M., Blanco, E., & Poon, W. C. K. (2018). Constraint-Based Approach to Granular Dispersion Rheology. Physical Review Letters, 121(12). https://doi.org/10.1103/PhysRevLett.121.128001
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