Microstructure from simulated Brownian suspension flows at large shear rate
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Publication:3555986
DOI10.1063/1.1476745zbMath1185.76267OpenAlexW2077208994MaRDI QIDQ3555986
Bhavana Katyal, Jeffrey F. Morris
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/1f6c514e0ea4c7d18eaed0d1159f91a58b976300
Related Items (12)
The rheology and microstructure of concentrated non-colloidal suspensions of deformable capsules ⋮ Suspension properties at finite Reynolds number from simulated shear flow ⋮ Particle migration and suspension structure in steady and oscillatory plane Poiseuille flow ⋮ Shear reversal in dense suspensions: the challenge to fabric evolution models from simulation data ⋮ Report of the Symposium on Interactions for Dispersed Systems in Newtonian and Viscoelastic Fluids, Guanajuato, Mexico, 2006 ⋮ Modelling of particle capture by expanding droplets ⋮ Physics-based analysis of the hydrodynamic stress in a fluid-particle system ⋮ Microstructural theory and the rheology of concentrated colloidal suspensions ⋮ Active microrheology of a colloidal suspension in the direct collision limit ⋮ Using the suspension balance model in a finite-element flow solver ⋮ The collective dynamics of self-propelled particles ⋮ Collective diffusion in sheared colloidal suspensions
Cites Work
- Accelerated Stokesian Dynamics simulations
- Dynamic simulation of hydrodynamically interacting suspensions
- The measurement of the shear-induced particle and fluid tracer diffusivities in concentrated suspensions by a novel method
- The pressure moments for two rigid spheres in low-Reynolds-number flow
- Dynamic simulation of suspensions of non-Brownian hard spheres
- Microstructure of strongly sheared suspensions and its impact on rheology and diffusion
- Structure, diffusion and rheology of Brownian suspensions by Stokesian Dynamics simulation
- Self-diffusion in sheared suspensions
- The determination of the bulk stress in a suspension of spherical particles to order c 2
- The hydrodynamic interaction of two small freely-moving spheres in a linear flow field
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