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Correlating inter-particle forces and particle shape to shear-induced aggregation/fragmentation and rheology for dilute anisotropic particle suspensions: A complementary study via capillary rheometry and in-situ small and ultra-small angle X-ray scattering

Anthony J. Krzysko, Elias Nakouzi, Xin Zhang, Trent R. Graham, Kevin M. Rosso, Gregory K. Schenter, Ján Ilavský, Ivan Kuzmenko, Matthew G. Frith, Cornelius F. Ivory, Sue B. Clark, Javen S. Weston, Katie M. Weigandt, James J. De Yoreo, Jaehun Chun, Lawrence M. Anovitz

2020Journal of Colloid and Interface Science35 citationsDOIOpen Access PDF

Topics & Concepts

RheologyRheometryRheometerMaterials scienceParticle aggregationCapillary actionColloidSuspension (topology)Fractal dimensionShear flowViscosityNewtonian fluidParticle (ecology)AnisotropyParticle sizeChemical physicsChemistryComposite materialMechanicsNanotechnologyFractalNanoparticleOpticsPhysicsMathematical analysisOceanographyMathematicsGeologyPhysical chemistryPure mathematicsHomotopyMaterial Dynamics and PropertiesPickering emulsions and particle stabilizationCoagulation and Flocculation Studies
Correlating inter-particle forces and particle shape to shear-induced aggregation/fragmentation and rheology for dilute anisotropic particle suspensions: A complementary study via capillary rheometry and in-situ small and ultra-small angle X-ray scattering | Litcius