The CAP-TSD (Computational Aeroelasticity Program - Transonic Small Disturbance) code, developed at the NASA - Langley Research Center, is applied to the Active Flexible Wing (AFW) wind tunnel model for prediction of the model's transonic aeroelastic behavior. Static aeroelastic solutions using CAP-TSD are computed. Dynamic (flutter) analyses are then performed as perturbations about the static aeroelastic deformations of the AFW. The accuracy of the static aeroelastic procedure is investigated by comparing analytical results to those from previous AFW wind tunnel experiments. Dynamic results are presented in the form of root loci at different Mach numbers for a heavy gas and air. The resultant flutter boundaries for both gases are also pre...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
An overview of recently completed programs in aeroelasticity and structural dynamics research at the...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
The application and assessment is described of CAP-TSD (Computational Aeroelasticity Program - Trans...
Transonic aeroelastic stability analysis and flutter calculations are presented for a generic transp...
A transonic unsteady aerodynamic and aeroelastic code called CAP-TSD (Computational Aeroelasticity P...
The initial application of the CAP-TSD computer program for wing flutter analysis is presented. Comp...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
Pressure data measured on the flexible DAST ARW-2 wing are compared with results calculated using th...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
A finite difference technique is used to solve the transonic small disturbance flow equation making ...
Modifications to unsteady transonic small disturbance theory to include entropy and vorticity effect...
Active flutter suppression control laws were designed, implemented, and tested on an aeroelastically...
A status report is provided on the collaboration between the Royal Institute of Technology (KTH) in ...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
An overview of recently completed programs in aeroelasticity and structural dynamics research at the...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
The application and assessment is described of CAP-TSD (Computational Aeroelasticity Program - Trans...
Transonic aeroelastic stability analysis and flutter calculations are presented for a generic transp...
A transonic unsteady aerodynamic and aeroelastic code called CAP-TSD (Computational Aeroelasticity P...
The initial application of the CAP-TSD computer program for wing flutter analysis is presented. Comp...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
Pressure data measured on the flexible DAST ARW-2 wing are compared with results calculated using th...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
A finite difference technique is used to solve the transonic small disturbance flow equation making ...
Modifications to unsteady transonic small disturbance theory to include entropy and vorticity effect...
Active flutter suppression control laws were designed, implemented, and tested on an aeroelastically...
A status report is provided on the collaboration between the Royal Institute of Technology (KTH) in ...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
An overview of recently completed programs in aeroelasticity and structural dynamics research at the...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...