Engineering
Models
100%
Experimental Technique
100%
Acoustics
100%
Boltzmann Equation
100%
Experimental Result
50%
Mechanisms
50%
Boundary Condition
50%
Sound Pressure Level
50%
Lattice-Boltzmann Method
25%
Degree of Freedom
25%
Plane Acoustic Wave
25%
Limitations
25%
Numerical Data
25%
Single Degree
25%
Mesh
25%
Cavity
25%
Pressure Field
25%
Codes
25%
Boundary Layer
25%
Numerical Analysis
25%
Velocity Field
25%
Physics
Model
100%
Acoustics
100%
Physics
50%
Boundary Condition
50%
Sound Pressure
50%
Calculation
25%
Plane
25%
Numerical Analysis
25%
Degree of Freedom
25%
Acoustic Wave
25%
Geometry
25%
Lattice-Boltzmann Method
25%
Sensory Perception
25%
Attenuation
25%
Boundary Layer
25%
Foci
25%
View
25%
Pressure
25%
Speed
25%
Earth and Planetary Sciences
Lining
100%
Investigation
100%
Acoustics
100%
Model
57%
Boundary Condition
28%
Sound Pressure
28%
Boundary Layer
14%
Degree of Freedom
14%
Constraint
14%
Matching
14%
Acoustic Wave
14%
Mesh
14%
Velocity Distribution
14%
Calculation
14%
Tools
14%
Grazing
14%
Video
14%
Accuracy
14%
Pressure Distribution
14%
Geometry
14%
Plane
14%
Presentation
14%
View
14%
Approach
14%
Damping
14%
INIS
liners
100%
acoustics
100%
investigations
100%
impedance
57%
levels
28%
boundary conditions
28%
physics
28%
boundary layers
14%
damping
14%
numerical data
14%
convergence
14%
cavities
14%
geometry
14%
grazing
14%
attenuation
14%
calculation methods
14%
comparative evaluations
14%
degrees of freedom
14%
numerical analysis
14%
velocity
14%
tools
14%
sound waves
14%
Keyphrases
Impedance Eduction
50%
High Sound Pressure Level
50%
Plane Acoustic Wave
25%
Liner Layers
25%
Mesh Convergence
25%
Multiple Cavities
25%