2012
DOI: 10.1039/c2fd20028g
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Viscoelastic phase separation in soft matter and foods

Abstract: Phase separation is a fundamental phenomenon that produces spatially heterogeneous patterns in soft matter and foods. We argue that phase separation in these materials generally belongs to "viscoelastic phase separation", where the morphology is determined by the mechanical balance of not only the thermodynamic force (interface tension) but also the viscoelastic force. The origin of the viscoelastic force is dynamic asymmetry between the components of a mixture, which can be caused by either a size disparity o… Show more

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Cited by 60 publications
(39 citation statements)
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References 170 publications
(371 reference statements)
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“…When the two components have very different glass transition temperatures, the strong dependency of mobility on phase composition may have similar effects on the phase separation process as the stress-diffusion coupling [20].…”
Section: Viscoelastic Phase Separationmentioning
confidence: 99%
See 2 more Smart Citations
“…When the two components have very different glass transition temperatures, the strong dependency of mobility on phase composition may have similar effects on the phase separation process as the stress-diffusion coupling [20].…”
Section: Viscoelastic Phase Separationmentioning
confidence: 99%
“…As the assumption of dynamic symmetry (the same dynamics for the two components of a binary mixture) is hardly valid in various real viscoelastic matters, Tanaka [18][19][20] introduced the concept of dynamic asymmetry (one slow component and one fast component) and complemented the traditional models with a viscoelastic model for phase separation in binary mixtures of viscoelastic matter. In Tanaka's model, the dynamic asymmetry may physically originate from the large difference in molecular size or glass transition temperature between the two components.…”
Section: Viscoelastic Phase Separationmentioning
confidence: 99%
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“…The morphology of the phase-separated emulsion system is determined by a mechanical balance of the thermodynamic forces (interfacial tension) and the viscoelastic forces associated with the flocculated droplet network. This is an example of a general structure-forming phenomenon in soft matter systems known as "viscoelastic phase separation" (Tanaka, 2012). Depletion flocculation of a protein-stabilized emulsion, and any associated viscoelastic phase separation, may also be induced by various kinds of non-adsorbing nanoparticles and micellar species (Dickinson, 2010a).…”
Section: Essential Principles Of Structure Formation and Stabilizationmentioning
confidence: 99%
“…Many natural and synthetic fluids exhibit viscoelastic characteristics; notable examples include blood, DNA solutions, polymer melts and solutions, and fiber suspensions [1][2][3][4]. The most challenging part of modeling the viscoelastic fluids is to determine the non-linear coupling between the macroscopic rheological responses and the microscopic evolution of molecular configurations under flow, thus modeling the viscoelastic fluids intrinsically is a multiscale problem.…”
Section: Introductionmentioning
confidence: 99%