Granulation and suspension rheology: A unified treatment
Daniel J. M. Hodgson, Michiel Hermes, Elena Blanco, Wilson C. K. Poon
Abstract
Mixing a small amount of liquid into a powder can give rise to dry-looking granules; increasing the amount of liquid eventually produces a flowing suspension. We perform experiments on these phenomena using Spheriglass, an industrially realistic model powder. Drawing on recent advances in understanding friction-induced shear thickening and jamming in suspensions, we offer a unified description of granulation and suspension rheology. A “liquid incorporation phase diagram” explains the existence of permanent and transient granules and the increase of granule size with liquid content. Our results point to rheology-based design principles for industrial granulation.
Topics & Concepts
RheologyGranulationMaterials scienceSuspension (topology)Granule (geology)DilatantComposite materialMathematicsPure mathematicsHomotopyGranular flow and fluidized bedsAdhesion, Friction, and Surface InteractionsRheology and Fluid Dynamics Studies