Litcius/Paper detail

Microstructure of continuous shear thickening colloidal suspensions determined by rheo-VSANS and rheo-USANS

Yu-Fan Lee, Yimin Luo, Tianyi Bai, Scott C. Brown, Norman J. Wagner

2022Soft Matter14 citationsDOI

Abstract

, particle cluster scale) microstructure of the shear thickened state. Here we employ neutron scattering methods applied to shearing colloidal dispersions of spherical particles with two extremes of friction and lubrication surface properties to resolve the longer-length scale microstructure in the shear thickened state. Hydroclusters are shown to be highly localized, in agreement with prior neutron scattering and direct optical measurements, but in disagreement with the most recent simulations that predict a longer-range structure formation. These results combined with prior measurements provide experimental evidence about the length scale of microstructure formation in continuous shear thickening suspensions necessary to improve our understanding of the phenomenon as well as guide theoretical investigations that quantitatively link nanoscale forces to macroscopic properties in the shear thickened state.

Topics & Concepts

DilatantMicrostructureMaterials scienceShear (geology)Shearing (physics)RheologyLubricationColloidShear rateNeutron scatteringDirect shear testMechanicsComposite materialScatteringOpticsChemistryPhysicsPhysical chemistryMaterial Dynamics and PropertiesRheology and Fluid Dynamics StudiesGranular flow and fluidized beds