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Harnessing Phononic Materials for Aerodynamic Flow Control
Srikumar Balasubramanian
, Sangwon Park
,
Kathryn Matlack
,
Andres Goza
Mechanical Science and Engineering
Aerospace Engineering
Beckman Institute for Advanced Science and Technology
Research output
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Chapter in Book/Report/Conference proceeding
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Conference contribution
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Keyphrases
Aerodynamic Control
100%
Phononic Materials
100%
Aerodynamics
42%
Fluid-structure Interaction
42%
Interaction Dynamics
28%
Aerodynamic Performance
28%
Unsteady Aerodynamics
28%
Material Properties
14%
Actuation Mechanism
14%
Frequency Dependence
14%
Dimensionless Parameters
14%
System Dynamics
14%
Reynolds number
14%
Actuation
14%
Interaction Parameter
14%
Flow Control
14%
Periodic Structures
14%
Complex Flow
14%
Non-dimensional Parameters
14%
UAV
14%
Control Effort
14%
Euler-Bernoulli Beam
14%
Flow Dynamics
14%
Flow Information
14%
High-fidelity Simulation
14%
Real-time Decision
14%
Inherent Frequency
14%
Frequency-dependent Characteristics
14%
Intrinsic Frequency
14%
Comprehensive Control
14%
Unmanned Aerial
14%
Fluid-structure Interaction System
14%
Passive Adaptive
14%
Engineering
Phononic Material
100%
Aerodynamics
100%
Fluid-Structure Interaction
57%
Actuation
28%
Aerodynamic Performance
28%
Microscale
14%
Unmanned Aerial Vehicle
14%
Dimensionless Parameter
14%
Systems Dynamics
14%
Reynolds' Number
14%
Interaction Parameter
14%
Bernoulli Beam
14%
Flow Dynamics
14%
Decision Time
14%
Structure Interaction System
14%
Inherent Frequency
14%
Material Science
Fluid-Structure Interaction
100%
Periodic Structure
25%
Materials Property
25%
Flow Dynamics
25%