Stochastic transient liquid-solid phase separation reveals multi-level dispersion states of particles in suspension

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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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Applied Rheology, Volume 29, issue 1
Wall slip or, more usually, liquid-solid phase separation at the boundary wall when measuring the rheological properties of particulate suspensions is normally considered an undesirable source of error.However, exclusion of a structure consisting of multiple particulates at a planar boundary can, in turn, reveal the nature of that structure and the way it interacts with other elements in the dispersion. Using a system of surface-treated ground calcite particles, designed to control lyophilicity, dispersed, respectively, in two comparative liquids, hexadecane (dispersive surface tension component only) and linseed oil (both dispersive and polar surface tension components), the relative wettability of the particulate surface can be studied. The static state is viscoelastic, with the elastic component reflecting the network of interacting forces acting to structure the particles together and/or to trap liquid within the long-range particle-particle matrix. As strain is applied under plate-plate geometry, selected aggregate structures become size-excluded at the wall, leading to a loss of shear coupling with the bulk polydisperse suspension. At high strain, given optimal solids content, this results in a stochastic transition between two discrete stress data sets, i.e. that with full shear coupling and that with only partial coupling. Stress recovery is subsequently monitored as strain is step-wise reduced, and the progress toward loss of the stochastic transient phenomenon, together with its parallel change in magnitude, is used to describe the re-formation of primary agglomerates. Cessation of the phase separation indicates re-build of the close-to-static structure. Under certain conditions it is observed that the cessation may be accompanied by a secondary relaxation of state, indicating the build of a secondary but weaker structure, likened to the well-known dual-level flocculation in aqueous colloidal suspension. Rheo-optical observations using small angle light scattering illumination (SALS) are used to confirma structure model switching from static (uncoupled with shear) to rotating (fully coupled to the boundary-defined shear) and finally uniformly sheared.
Colloidal structure formation, Dispersibility of particles in liquids, Liquid-solid phase separation, Particulate structures in suspension, Rheo-optical structure analysis, Rheology of suspensions, Stochastic structures, Surface wettability in dispersed systems
Other note
Gane , P , Dimic-Misic , K , Hummel , M , Welker , M & Rentsch , S 2019 , ' Stochastic transient liquid-solid phase separation reveals multi-level dispersion states of particles in suspension ' , Applied Rheology , vol. 29 , no. 1 , pp. 41-57 .