Engineering
Shear Thinning
100%
Artificial Heart
98%
Computational Fluid Dynamics
85%
Secondary Flow
73%
Driven Flow
49%
Prosthetics
46%
Laminar-Turbulent Transition
42%
Accurate Simulation
36%
Cfd Simulation
36%
Rotational
36%
Leaflet Valve
36%
Rheometer
36%
Multiscale Modeling
36%
Rotating Domain
36%
Numerical Modeling
36%
Gravity Casting
36%
Fluid Viscosity
33%
Fluid-Structure Interaction
27%
Adverse Pressure Gradient
24%
Left Side
24%
Erythrocyte
23%
Flow Rate
21%
Blood Pump
21%
Flow Velocity
21%
Flow Distribution
21%
Rheology
19%
Mooney-Rivlin Model
18%
Fluid Dynamics
17%
Numerical Model
15%
Modified Reynolds' Number
15%
Shear Rate
14%
Newtonian Fluid
14%
Thinning Behavior
14%
Exit Plane
12%
Regurgitation
12%
Design Change
12%
Modeling Strategy
12%
Pressure Difference
12%
Simulation Result
12%
Pressure Fluctuation
12%
Fluid Velocity
12%
Linear Displacement
12%
Boundary Condition
12%
Flow Valve
12%
Navier-Stokes Equation
12%
Fluid Shear Stress
12%
Exit Flow
12%
Velocity Field
11%
Inflow Rate
9%
Maximum Shear Stress
9%
Earth and Planetary Sciences
Shear Thinning
100%
Numerical Modeling
73%
Secondary Flow
73%
Rheometer
36%
Non Newtonian Fluid
36%
Rheology
19%
Reynolds Number
19%
Velocity Distribution
11%
Newtonian Fluid
10%
Flow Distribution
8%
Backward Facing Step
7%
Centrifugation
5%
Laminar-Turbulent Transition
5%
Fluid Dynamics
5%
Yield Point
5%
Thixotropy
5%
Viscoelasticity
5%
Medicine and Dentistry
Heart Left Ventricle Ejection Fraction
36%
Blood Flow
36%
Artificial Heart
36%
Cardiac Magnetic Resonance Imaging
36%
End-Systolic Volume
18%
Endocardium
18%
Reproducibility
18%
Contouring
9%
Heart Valve Prosthesis
9%
Aortic Valve
9%
Heart Ventricle Pressure
9%
Congestive Heart Failure
9%
Hemodynamic
9%
Ventricle of Heart
9%
Heart Transplantation
9%
Mitral Valve
9%
Diagnosis
9%
Heart Function
9%