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The following pages link to Multiscale modelling of erythrocytes in Stokes flow (Q2893702):

Displaying 19 items.

An unstructured solver for simulations of deformable particles in flows at arbitrary Reynolds numbers (Q348359) (← links)
A stability result on the orientation of red blood cells in the venule network (Q361112) (← links)
Force-moment line element method for Stokes flow around a slender body (Q463531) (← links)
Using 3D fluid-structure interaction model to analyse the biomechanical properties of erythrocyte (Q552870) (← links)
Systematic coarse-graining of spectrin-level red blood cell models (Q658796) (← links)
Validation of an immersed thick boundary method for simulating fluid-structure interactions of deformable membranes (Q727605) (← links)
A quasi-continuum model for human erythrocyte membrane based on the higher order Cauchy-Born rule (Q741919) (← links)
A new two-component approach in modeling red blood cells (Q827584) (← links)
Effective computational modeling of erythrocyte electro-deformation (Q1680439) (← links)
A generalized traction integral equation for Stokes flow, with applications to near-wall particle mobility and viscous erosion (Q1685197) (← links)
Bridging the computational gap between mesoscopic and continuum modeling of red blood cells for fully resolved blood flow (Q2222595) (← links)
A multiscale framework for large deformation modeling of RBC membranes (Q2310169) (← links)
Two-dimensional finite element model of breast cancer cell motion through a microfluidic channel (Q2417508) (← links)
Multiscale computational framework for predicting viscoelasticity of red blood cells in aging and mechanical fatigue (Q2670349) (← links)
Probing red blood cell mechanics, rheology and dynamics with a two-component multi-scale model (Q2955703) (← links)
(Q3202161) (← links)
A theoretical investigation of the frisbee motion of red blood cells in shear flow (Q5001065) (← links)
An Improved Coarse-Grained Model to Accurately Predict Red Blood Cell Morphology and Deformability (Q5141313) (← links)
Assessment of coupled bilayer–cytoskeleton modelling strategy for red blood cell dynamics in flow (Q6146271) (← links)