Shear thickening in dense bidisperse suspensions

Abstract: Discrete-particle simulations of bidisperse shear thickening suspensions are reported. The work considers two packing parameters, the large-to-small particle radius ratio ranging from [Formula: see text] (nearly monodisperse) to [Formula: see text], and the large particle fraction of the total solid loading with values [Formula: see text], 0.5, and 0.85. Particle-scale simulations are performed over a broad range of shear stresses using a simulation model for spherical particles accounting for short-range lubr… Show more

“…The rheological properties of bidispersed suspensions, as well as the possible filling limit, and the conditions of jamming depend on the nature of the interaction between the particles. Appropriate results, taking into account short-range lubrication forces, frictional interaction, and repulsion between particles, are presented and discussed by Malbranche et al [26]. The rheology of bidispersed, non-Brownian suspensions using particle-based simulation, mapping the viscosity as a function of the size ratio of the species, their relative abundance, and the overall solid content, has also been studied by Singh et al [27].…”

Rheology of Highly Filled Polymer Compositions—Limits of Filling, Structure, and Transport Phenomena

“…The rheological properties of bidispersed suspensions, as well as the possible filling limit, and the conditions of jamming depend on the nature of the interaction between the particles. Appropriate results, taking into account short-range lubrication forces, frictional interaction, and repulsion between particles, are presented and discussed by Malbranche et al [26]. The rheology of bidispersed, non-Brownian suspensions using particle-based simulation, mapping the viscosity as a function of the size ratio of the species, their relative abundance, and the overall solid content, has also been studied by Singh et al [27].…”

Rheology of Highly Filled Polymer Compositions—Limits of Filling, Structure, and Transport Phenomena

Progress and challenges in suspension rheology

Order-disorder transition during shear thickening in bidisperse dense suspensions