Keyphrases
Residence Time
100%
Blood Flow Simulation
100%
Large Arteries
100%
Shear Thinning
100%
Non-Newtonian Blood Flow
100%
Blood Rheology
100%
Rouleaux Formation
100%
Rheological Model
100%
Non-Newtonian Model
100%
Patient-specific Computational Fluid Dynamics
66%
Computational Fluid Dynamics Modeling
66%
Red Blood Cells
33%
Lagrangian Particle Tracking
33%
Time-based
33%
Image-based
33%
Region-based
33%
Novel Hybrids
33%
Time Measurement
33%
Ruptured Abdominal Aortic Aneurysm (rAAA)
33%
Computational Fluid Dynamics Simulation
33%
Aneurysmal
33%
Cerebral Aneurysm
33%
Particle Residence Time
33%
Aneurysm Model
33%
Blood Shear
33%
Red Blood Cell Aggregation
33%
Stagnant Region
33%
Non-Newtonian Modeling
33%
Low Shear Rate
33%
Non-Newtonian Rheology
33%
Newtonian Model
33%
Cell Residence Time
33%
Engineering
Do Model
100%
Rheology
100%
Newtonian Model
100%
Computational Fluid Dynamics
75%
Shear Thinning
75%
Patient Specific
50%
Erythrocyte
50%
Thinning Behavior
50%
Shear Rate
25%
Dynamic Models
25%
Computational Fluid Dynamic Modeling
25%
Earth and Planetary Sciences
Flow Modeling
100%
Rheology
100%
Fluid Dynamics
100%
Shear Thinning
75%
Dynamic Simulation
25%
Particle Tracking
25%
Dynamic Models
25%
Computer Science
Cell Aggregation
100%
Cerebral Aneurysm
100%