Add to ORKGThe dynamic coupling between the rotor system and the fuselage of a simplified helicopter model in hover was analytically investigated. Mass, aerodynamic damping, and elastic and centrifugal stiffness matrices are presented for the analytical model; the model is based on a beam finite element, with polynomial mass and stiffness distributions for both the rotor and fuselage representations. For this analytical model, only symmetric fuselage and collective blade degrees of freedom are treated. Real and complex eigen-analyses are carried out to obtain coupled rotor-fuselage natural modes and frequencies as a function of rotor speed. Vibration response results are obtained for the coupled system subjected to a radially uniform, harmonic blade l...
An analytical model is developed for the aeroelastic behavior of a rotorcraft in flight or in a wind...
The results of an analytical study aimed at predicting the aeromechanical stability of a helicopter ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
A mathematical model, suitable for piloted simulation of the flying qualities of helicopters, is a n...
This report is directed to the problem of developing an adequate but not overly complex linear fligh...
The governing equations of motion of a helicopter rotor coupled to a rigid body fuselage are derived...
A mathematical model suitable for real time simulation of the CH-53 helicopter is presented. This mo...
Equations of motion for a coupled rotor-body system were derived for the purpose of studying air and...
An analysis of stall-induced helicopter rotor blade torsional oscillations was carried out, the prim...
The use of a computer program for a comprehensive analytical model of rotorcraft aerodynamics and dy...
A computationally efficient body analysis designed to couple with a comprehensive helicopter analysi...
The formulation and features of the Rotor-Airframe Comprehensive Analysis Program (RACAP) is describ...
Chapter one presents a discussion of flight-test and analysis methods for some selected helicopter v...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Under a research program designated Design Analysis Methods for VIBrationS (DAMVIBS), existing analy...
An analytical model is developed for the aeroelastic behavior of a rotorcraft in flight or in a wind...
The results of an analytical study aimed at predicting the aeromechanical stability of a helicopter ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
A mathematical model, suitable for piloted simulation of the flying qualities of helicopters, is a n...
This report is directed to the problem of developing an adequate but not overly complex linear fligh...
The governing equations of motion of a helicopter rotor coupled to a rigid body fuselage are derived...
A mathematical model suitable for real time simulation of the CH-53 helicopter is presented. This mo...
Equations of motion for a coupled rotor-body system were derived for the purpose of studying air and...
An analysis of stall-induced helicopter rotor blade torsional oscillations was carried out, the prim...
The use of a computer program for a comprehensive analytical model of rotorcraft aerodynamics and dy...
A computationally efficient body analysis designed to couple with a comprehensive helicopter analysi...
The formulation and features of the Rotor-Airframe Comprehensive Analysis Program (RACAP) is describ...
Chapter one presents a discussion of flight-test and analysis methods for some selected helicopter v...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Under a research program designated Design Analysis Methods for VIBrationS (DAMVIBS), existing analy...
An analytical model is developed for the aeroelastic behavior of a rotorcraft in flight or in a wind...
The results of an analytical study aimed at predicting the aeromechanical stability of a helicopter ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...