Shear yield stress of partially flocculated colloidal suspensions

An idealized Brownian dynamics algorithm is used to simulate sheared suspensions of particles in \(3 \mathrm{D}\) at \(30 \%\) volume fraction and with attractive interactions due to depletion effects. At rest, the system considered lies within the regime of phase separation and forms a floc network

Colloidal polystyrene and paramagnetic particles consisting of mixtures of polystyrene and magnetite are used to experimentally investigate flocculation kinetics in a stirred tank under turbulent shear flow. The effects of various parameters-agitation speed, solution pH, ionic strength, particle siz

## Abstract Yield stress measurements of gas/liquid/fibre suspensions, were conducted to examine the effect of gas concentration as well as fibre concentration. Obtaining a well mixed stable pulp suspension with gas was difficult. A transparent model system consisting of glass fibres submersed in r

Electrorheological response was experimentally studied by the use of silicone oil suspensions containing submicrometer-sized and supermicrometer-sized silica particles with different amounts of adsorbed water. The simultaneous measurements of dielectric permittivity and shear stress of the suspensio

A new theoretical approach is proposed for the yield stress of concentrated, flocculated particulate suspensions. Explicit cognizance is taken for the three-dimensional, mechanical& rigid particle network held together by interparticle forces wherein the mean coordination number in the assemblage in