The results of an analytical study aimed at predicting the aeromechanical stability of a helicopter in ground resonance, with the inclusion of aerodynamic forces are presented. The theoretical results are found to be in good agreement with the experimental results, available in literature, indicating that the coupled rotor/fuselage system can be represented by a reasonably simple mathematical model
Various features of the computer codes used in the helicopter industry and by government agencies fo...
A combined analytical and experimental determination is made of the coupled natural frequencies and ...
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...
Three cases were selected for correlation from an experiment that examined the aeromechanical stabil...
The analytical capability of the helicopter stability program is discussed. The parameters which are...
Two cases were selected for correlation from an experiment that examined the aeromechanical stabilit...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
An approximate theoretical method is presented which determined the limit cycle behavior of a helico...
The effects of unsteady aerodynamics on the stability characteristics of helicopter rotor blades wer...
A combination of analytic modeling and system identification methods have been used to develop an im...
A number of applications of a rotorcraft aeroelastic analysis are presented to verify that the analy...
A set of linearized equations of motion to predict the linearized dynamic response of a single rotor...
The effects of fuselage motions on stability and random response were analytically assessed. The fea...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
The problem of rotor-fuselage aerodynamic interaction has to be considered in industry applications ...
Various features of the computer codes used in the helicopter industry and by government agencies fo...
A combined analytical and experimental determination is made of the coupled natural frequencies and ...
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...
Three cases were selected for correlation from an experiment that examined the aeromechanical stabil...
The analytical capability of the helicopter stability program is discussed. The parameters which are...
Two cases were selected for correlation from an experiment that examined the aeromechanical stabilit...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
An approximate theoretical method is presented which determined the limit cycle behavior of a helico...
The effects of unsteady aerodynamics on the stability characteristics of helicopter rotor blades wer...
A combination of analytic modeling and system identification methods have been used to develop an im...
A number of applications of a rotorcraft aeroelastic analysis are presented to verify that the analy...
A set of linearized equations of motion to predict the linearized dynamic response of a single rotor...
The effects of fuselage motions on stability and random response were analytically assessed. The fea...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
The problem of rotor-fuselage aerodynamic interaction has to be considered in industry applications ...
Various features of the computer codes used in the helicopter industry and by government agencies fo...
A combined analytical and experimental determination is made of the coupled natural frequencies and ...
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...