Rheological effect of particle clustering in gelled dispersions

A theoretical model is presented to describe the effect of particle clustering on the elastic modulus of composite gelled systems. In this model, particle clusters are described as regions with an increased volume fraction of the dispersed particles and with a firmness that is determined by the volu...

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Bibliographic Details
Published in:Food hydrocolloids 2015-06, Vol.48, p.102-109
Main Authors: van Aken, George A., Oliver, Laura, Scholten, Elke
Format: Article
Language:English
Subjects:
Aggregation
Clustering
Composite gels
Elasticity
Emulsion-filled gels
Food emulsions
gels
Kerner
Modelling
Palierne
particulate-filled composites
Rheology
shear modulus
spheres
suspensions
Van der Poel
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Summary:A theoretical model is presented to describe the effect of particle clustering on the elastic modulus of composite gelled systems. In this model, particle clusters are described as regions with an increased volume fraction of the dispersed particles and with a firmness that is determined by the volume fraction of the particles in the cluster. The firmness of the composite gel is then calculated on the basis of the volume fraction and firmness of these clusters, which are treated as cluster particles. In this way, the Kerner equation (including compressibility, but neglecting the particle surface) and the Palierne equation (including the particle surface, but neglecting compressibility), both corrected for particle crowding at high volume fractions of the dispersed particles by the method of Lewis and Nielsen, are extended to describe the effect of particle clustering. It is demonstrated that, even in the absence of discrete bonds between the particles, clustering considerably amplifies the effect of the dispersed phase on the elastic modulus of the composite gel. This amplifying effect increases for higher volume fractions of the dispersed particles. [Display omitted] •A new theory extends rheological models for clustering of filler particles.•Clustering amplifies the filler effect on the elastic modulus of gels.•Existing models were examined for consistency at high particle volume fractions.•The new construction can explain experimental observations.
ISSN:0268-005X
1873-7137
DOI:10.1016/j.foodhyd.2015.02.001