Keyphrases
Damping Performance
100%
Thermal Environment
100%
Damping Analysis
100%
Stiffened Composite Plate
100%
Dynamic Response
66%
Displacement Method
66%
Stiffener
66%
Laminated Composite Plate
66%
Friction
33%
Robust Approach
33%
Energy-based
33%
Elevated Temperature
33%
Modal Expansion
33%
Glass Transition Temperature
33%
Increased Temperature
33%
Elastic Modulus
33%
Viscoelastic Properties
33%
High-speed Vehicle
33%
Aerodynamics
33%
Damping Matrix
33%
Viscous Damping
33%
Damping Model
33%
Lightweight Composites
33%
Stiffened Plate
33%
Lamin
33%
Logarithmic Decrement
33%
Energy-based Approach
33%
Polyetheretherketone
33%
First-order Shear Deformation Theory
33%
Unstiffened
33%
Rayleigh Damping
33%
High-speed Aircraft
33%
Composite Lamina
33%
Performance at Low Temperature
33%
Displacement-based Analysis
33%
Damped Vibration
33%
High-strength Composites
33%
Unstiffened Plates
33%
Carbon Fiber Composite Laminates
33%
Engineering
Laminated Composite Plate
100%
Thermal Environment
100%
Dynamic Response
66%
Low-Temperature
33%
Elevated Temperature
33%
Damping Matrix
33%
Stiffened Plate
33%
Polyetheretherketone
33%
First-Order Shear Deformation Theory
33%
Damped Vibration
33%
Modulus of Elasticity
33%
Aerodynamics
33%
Material Science
Composite Material
100%
Laminated Plate
100%
Aircraft
33%
Glass Transition Temperature
33%
Elastic Moduli
33%
Carbon Fiber
33%
Polyetheretherketone
33%