Kinetics of structurization processes in three-phase disperse systems under the dynamic conditions (vibration) during mixing

Abstract

Regularities of the formation kinetics of the three-phase disperse systems of the solid–liquid–gas type under dynamic conditions were considered. The mechanism of the action of continuous shear and vibration (with various frequencies and amplitudes) on the formation and breakage of dispersed structures in such systems was studied. The interrelation of contact interactions between the particles and particle aggregates with the bulk rheological properties of three-phase disperse systems during mixing of finely dispersed solid phases with liquid medium and consequent compaction of dispersions was established. The revealed regularities of the formation dynamics of three-phase disperse structures provide the basis for chemical technology of highly concentrated disperse systems and highly filled disperse composites.