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Nonlinear vibrations of double-wall cylindrical shells
Rimas Vaicaitis
*
,
Vedat Dogan
*
Corresponding author for this work
Department of Aeronautical Engineering
Columbia University
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Keyphrases
Cylindrical Shell
100%
Nonlinear Response
100%
Double Wall
100%
Nonlinear Vibration
100%
Power Plant
50%
Noise Level
50%
Monte Carlo Simulation
50%
Analytical Model
50%
Galerkin
50%
Stiffness
50%
Outer Shell
50%
Simply Supported
50%
Nonlinearity
50%
Linear Response
50%
Numerical Results
50%
Aerodynamics
50%
Root Mean Square
50%
Thermal Load
50%
Aerodynamic Loads
50%
Soft Core
50%
Numerical Integration Method
50%
Response History
50%
Time-domain Response
50%
Random Excitation
50%
Donnell Thin Shell Theory
50%
Stationary Random Process
50%
Multi-mode
50%
Response Solution
50%
Nonlinear Equations of Motion
50%
Nonlinear Spring
50%
Transportation Vehicle
50%
Core Thickness
50%
Inner Shell
50%
Ground Transportation
50%
Spectral Density
50%
Mean Square Response
50%
Spring-dashpot Model
50%
Transmission Noise
50%
Shell Thickness
50%
Response Spectral
50%
Mechanical Load
50%
Cylindrical Sandwich Shell
50%
Thin-walled Shell
50%
Engineering
Cylindrical Shell
100%
Nonlinear Response
100%
Double Wall
100%
Nonlinear Vibration
100%
Time Domain
50%
Analytical Model
50%
Outer Shell
50%
Parametric Study
50%
Aerodynamic Load
50%
Multimode
50%
Numerical Integration
50%
Root Mean Square Value
50%
Domain Response
50%
Stationary Random Process
50%
Shell Theory
50%
Core Thickness
50%
Shell Thickness
50%
Shell Wall
50%
Spectral Response
50%
Linear Response
50%
Mechanical Load
50%
Noise Level
50%
Electric Power Plant
50%
Thermal Load
50%
Nonlinearity
50%