Litcius/Paper detail

Viscous to Inertial Transition in Dense Granular Suspension

Franco Tapia, Mie Ichihara, Olivier Pouliquen, Élisabeth Guazzelli

2022Physical Review Letters37 citationsDOIOpen Access PDF

Abstract

Granular suspensions present a transition from a Newtonian rheology in the Stokes limit to a Bagnoldian rheology when inertia is increased. A custom rheometer that can be run in a pressure- or a volume-imposed mode is used to examine this transition in the dense regime close to jamming. By varying systematically the interstitial fluid, shear rate, and packing fraction in volume-imposed measurements, we show that the transition takes place at a Stokes number of 10 independent of the packing fraction. Using pressure-imposed rheometry, we investigate whether the inertial and viscous regimes can be unified as a function of a single dimensionless number based on stress additivity.

Topics & Concepts

RheometerRheologyRheometryDimensionless quantityMaterials scienceMechanicsInertial frame of referenceStokes numberSuspension (topology)InertiaAtomic packing factorShear rateNewtonian fluidVolume fractionViscous liquidPhysicsTurbulenceClassical mechanicsReynolds numberComposite materialNuclear magnetic resonancePure mathematicsHomotopyMathematicsGranular flow and fluidized bedsMaterial Dynamics and PropertiesRheology and Fluid Dynamics Studies