Michel Cloître scite author profile

Soft particle glasses form a broad family of materials made of deformable particles, as diverse as microgels, emulsion droplets, star polymers, block copolymer micelles and proteins, which are jammed at volume fractions where they are in contact and interact via soft elastic repulsions. Despite a great variety of particle elasticity, soft glasses have many generic features in common. They behave like weak elastic solids at rest but flow very much like liquids above the yield stress. This unique feature is exploited to process high-performance coatings, solid inks, ceramic pastes, textured food and personal care products. Much of the understanding of these materials at volume fractions relevant in applications is empirical, and a theory connecting macroscopic flow behaviour to microstructure and particle properties remains a formidable challenge. Here we propose a micromechanical three-dimensional model that quantitatively predicts the nonlinear rheology of soft particle glasses. The shear stress and the normal stress differences depend on both the dynamic pair distribution function and the solvent-mediated EHD interactions among the deformed particles. The predictions, which have no adjustable parameters, are successfully validated with experiments on concentrated emulsions and polyelectrolyte microgel pastes, highlighting the universality of the flow properties of soft glasses. These results provide a framework for designing new soft additives with a desired rheological response.

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Aggregation and Sedimentation in Colloidal Suspensions

Allain

1995

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Glassy Dynamics and Flow Properties of Soft Colloidal Pastes

et al. 2003

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The local dynamics and the nonlinear rheology of soft colloidal pastes are shown to exhibit a remarkable universal behavior in terms of a unique microscopic time scale. This variable is associated with structural relaxation under the combined action of local frictional forces and elastic driving forces. These results establish a link between the local dynamics of pastes and their nonlinear flow behavior and provide a unified description of paste rheology.

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Michel Cloître

Characterizing the lacunarity of random and deterministic fractal sets

Rheological Aging and Rejuvenation in Microgel Pastes

Slip and Flow in Soft Particle Pastes

Slip and flow in pastes of soft particles: Direct observation and rheology

Tunable rheology of dense soft deformable colloids

A micromechanical model to predict the flow of soft particle glasses

Aggregation and Sedimentation in Colloidal Suspensions

Glassy Dynamics and Flow Properties of Soft Colloidal Pastes

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