2012
DOI: 10.1073/pnas.1206742109
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Role of isostaticity and load-bearing microstructure in the elasticity of yielded colloidal gels

Abstract: We report a simple correlation between microstructure and straindependent elasticity in colloidal gels by visualizing the evolution of cluster structure in high strain-rate flows. We control the initial gel microstructure by inducing different levels of isotropic depletion attraction between particles suspended in refractive index matched solvents. Contrary to previous ideas from mode coupling and micromechanical treatments, our studies show that bond breakage occurs mainly due to the erosion of rigid clusters… Show more

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Cited by 149 publications
(166 citation statements)
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“…Hardsphere colloidal glasses in shear flow exhibit strongly localized yielding [29], leading to shear-banding [30,31], or jamming and self-filtration [32]. Finally, colloidal gels deform non-linearly [33] and yield under shear flow [25,34]. Single-particle imaging also aids in elucidating the contribution of hydrodynamic forces vs. short-range repulsions [35] and of normal stress differences to particle migration [36] in sheared or flowing hard-sphere colloids.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Hardsphere colloidal glasses in shear flow exhibit strongly localized yielding [29], leading to shear-banding [30,31], or jamming and self-filtration [32]. Finally, colloidal gels deform non-linearly [33] and yield under shear flow [25,34]. Single-particle imaging also aids in elucidating the contribution of hydrodynamic forces vs. short-range repulsions [35] and of normal stress differences to particle migration [36] in sheared or flowing hard-sphere colloids.…”
Section: Introductionmentioning
confidence: 99%
“…Depletion interactions can also generate other kinds of nonequilibrium solids such as attractive glasses [21] and colloidal gels [22,23], whose mechanical properties depend upon the strength and nature of the interparticle attractions. Imaging experiments, in this context, allow the microscopic particle structure to be linked to the macroscopic mechanical properties [24,25].…”
Section: Introductionmentioning
confidence: 99%
“…In order to predict the mechanical properties of gels, it is important to know both their local [13][14][15] and global [16][17][18] structure, but a deep understanding of both remains today a challenge. For example, in the very dilute limit, the study of gel formation via molecular dynamics is challenged by the very long times required to form aggregates, with equilibration times that easily exceed 10 8 integration steps 19 .…”
Section: Introductionmentioning
confidence: 99%
“…It can also characterize shear-induced melting of colloidal gels made from the same colloidpolymer mixtures at lower colloid volume fractions, due to the different length scales involved [Koumakis and Petekidis (2011)]. In fact, shear yielding in a variety of systems from emulsions to foams and nanocomposites, which often consist of gel-like networks, is a macroscopic process that takes place via a gradual evolution involving microscopic structural rearrangements [Rouyer et al (2003); Osman et al (2004); Masschaele and Vermant (2009);Putz and Burghelea (2009);Hsiao et al (2012); Kamble et al (2013); Moll et al (2013)]. …”
Section: Introductionmentioning
confidence: 99%