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Nonlinear Transient and Steady State Stretching of Deflated Vesicles in Flow
Dinesh Kumar,
Charles M. Schroeder
Materials Science and Engineering
Chemical and Biomolecular Engineering
Bioengineering
Materials Research Lab
Chemistry
Beckman Institute for Advanced Science and Technology
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Keyphrases
Steady State
100%
Transient State
100%
Nonlinear Stretching
60%
Non-spherical Shape
40%
Critical Capillary number
40%
Large Deformation
20%
Lipids
20%
Analytical Model
20%
Stokes
20%
Membrane Binding
20%
Shape Anisotropy
20%
Dynamic Mechanics
20%
Far-from-equilibrium
20%
Flow Control
20%
Reduced Volume
20%
Vesicle Membrane
20%
Dumbbell-shaped
20%
Biconcave
20%
Membrane Mechanics
20%
Deformed Shape
20%
Vesicle Deformation
20%
Extensional Flow
20%
Viscosity Contrast
20%
Membrane Stretch
20%
CAC1
20%
Flow Cessation
20%
Tubular Morphology
20%
Calcium Carbide
20%
Following Flow
20%
Chemistry
Relaxation
100%
Flow Kinetics
100%
Anisotropy
100%
Control Flow
100%
Material Science
Large Deformation
100%
Anisotropy
100%
Control Flow
100%
Biochemistry, Genetics and Molecular Biology
Steady State
100%
Dynamics
80%
Lipid
20%
Anisotropy
20%
Membrane Vesicle
20%
Flow Rate
20%