Effects of volume fraction and particle shape on the rheological properties of oblate spheroid suspensions
Junwei Guo, Qi Zhou, R.C.K. Wong
Abstract
Coupled lattice Boltzmann and discrete element methods were employed to investigate the rheological properties of oblate spheroid suspensions in a Newtonian fluid. The volume fraction of the particles is varied along with the particle aspect ratio. As the particle shape is varied from sphere to oblate, we observe an increase in the relative viscosity as well as an increase in the particle contacts and the contact distance. The more oblate particles in denser suspensions are observed to reorient systematically subject to the shear flow. We recast the viscosity data using the Krieger–Dougherty formula and report the modified Einstein coefficients.
Topics & Concepts
PhysicsSpheroidOblate spheroidRheologyLattice Boltzmann methodsVolume fractionNewtonian fluidParticle (ecology)ViscosityMechanicsShear flowNon-Newtonian fluidClassical mechanicsThermodynamicsChemistryOceanographyBiochemistryIn vitroGeologyLattice Boltzmann Simulation StudiesBlood properties and coagulationFluid Dynamics and Turbulent Flows