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Mutual coagulation of colloidal dispersions
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1966
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Colloidal MaterialEngineeringMutual CoagulationParticle-laden FlowColloidal PropertyTransport PhenomenaRheologyDispersed SpeciesColloidal SystemsChemistryQuantitative TheoryChemical KineticsBiophysicsColloidal System
The study presents a quantitative theory describing the kinetics of coagulation in multi‑species colloidal systems. The theory derives a general expression for the interaction potential between dissimilar spherical colloidal particles using the Debye‑Hückel approximation, defines an overall stability ratio accounting for like and unlike interactions, and applies the model to a hypothetical system under various conditions. The linear‑approximation errors on the stability ratio are negligible, and the theory successfully predicts the behaviour of a hypothetical system under various conditions.
A quantitative theory is presented which describes the kinetics of coagulation of colloidal systems containing more than one dispersed species. A general expression has been derived to describe the potential energy of interaction between dissimilar spherical colloidal particles, using the linear (Debye-Hückel) approximation for low surface potentials. An overall stability ratio has been defined which takes into account the possibility of interactions between like, as well as unlike, particles in the system. The errors introduced by the use of the linear approximation have been assessed in terms of their effects on the stability ratio, and found to be quite small. The theory has been used to describe the behaviour of a hypothetical system under various conditions.