Engineering
Artificial Heart
60%
Bearing Design
11%
Blood Pump
18%
Boundary Condition
7%
Centrifugal
12%
Computational Fluid Dynamics
100%
Computer Aided Design
9%
Design Optimization
14%
Design Point
8%
Diffusers
8%
Driven Flow
16%
Dynamic Models
10%
Dynamic Stress
8%
Erythrocyte
12%
Experimental Measurement
16%
Exposure Time
12%
Flow Condition
9%
Flow Distribution
16%
Flow Rate
20%
Flow Velocity
20%
Fluid Dynamics
15%
Fluid Viscosity
8%
Fluid-Structure Interaction
19%
Good Agreement
12%
Hemocompatibility
32%
Impeller
19%
Leaflet Valve
11%
Learning System
8%
Left Side
7%
Low Power Consumption
8%
Magnetic Levitation
18%
Mechanical Power
8%
Modeling Strategy
18%
Navier-Stokes Equation
7%
Numerical Model
30%
Numerical Modeling
8%
Objective Function
11%
Peak Velocity
6%
Platelet
11%
Positive Displacement
35%
Pressure Flow
10%
Refined Mesh
8%
Rheology
10%
Rotational
6%
Rotors
10%
Secondary Flow
13%
Shear Thinning
16%
Strain Rate
7%
Transients
8%
Wall Shear Stress
12%
Medicine and Dentistry
Artificial Heart
11%
Assisted Circulation
18%
Blood Flow
12%
Cardiovascular System
8%
Cardiovascular System
6%
Congestive Heart Failure
5%
End-Systolic Volume
6%
Heart Left Ventricle Ejection Fraction
6%
Hemodynamic
10%
Isolated Heart
5%
Left Ventricular Assist Device
8%
Magnetic Resonance Imaging
6%
Mitral Valve
6%
Myocardial Infarction
8%
Pediatrics
6%
Power Law
5%
Ventricular Assist Device
14%
