Add to ORKGAn analysis of stall-induced helicopter rotor blade torsional oscillations was carried out, the primary objectives being to predict the onset and severity of the oscillations and their relationship to aircraft and blade parameters. Blade flapping, flapwise bending, and torsional degrees of freedom were taken into account, with radial variation in aerodynamic loading determined from a previously developed dynamic stall model. Results of analyses were compared with data from flight tests of helicopters. Analyses were carried out while parametrically varying blade vibrational characteristics. It was found that the amplitudes of the higher harmonics of torsional oscillations can be significantly reduced by either reducing the torsional natural ...
An experimental program has been conducted in the NASA Lewis Research Center Icing Research Tunnel (...
Flight investigations of wing-rotor lift-sharing characteristics of XH-51 helicopte
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
A study of rotor blade aeroelastic stability was carried out, using an analytic model of a two-dimen...
A model for each of the basic flow elements involved in the unsteady stall of a two-dimensional airf...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
Theoretical studies have predicted that operation of helicopter rotor beyond certain combinations of...
Analytical investigation of effects of blade flexibility, unsteady aerodynamics, and variable inflow...
The dynamic coupling between the rotor system and the fuselage of a simplified helicopter model in h...
The Langley transonic dynamics tunnel was used to determine the degree of correlation between rotor ...
Recent experimental results from airfoils in the Mach number, Reynolds number, or reduced frequency ...
A benchmark test to aid the development of various rotor performance codes was conducted. Simultaneo...
An existing computer program, used for predicting the natural frequencies and mode shapes of helicop...
Helicopter-type rotor aerodynamics, and design problems on cruise efficiency and maneuverin
An analytical study was conducted to predict the aerodynamic characteristics of two helicopter rotor...
An experimental program has been conducted in the NASA Lewis Research Center Icing Research Tunnel (...
Flight investigations of wing-rotor lift-sharing characteristics of XH-51 helicopte
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
A study of rotor blade aeroelastic stability was carried out, using an analytic model of a two-dimen...
A model for each of the basic flow elements involved in the unsteady stall of a two-dimensional airf...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
Theoretical studies have predicted that operation of helicopter rotor beyond certain combinations of...
Analytical investigation of effects of blade flexibility, unsteady aerodynamics, and variable inflow...
The dynamic coupling between the rotor system and the fuselage of a simplified helicopter model in h...
The Langley transonic dynamics tunnel was used to determine the degree of correlation between rotor ...
Recent experimental results from airfoils in the Mach number, Reynolds number, or reduced frequency ...
A benchmark test to aid the development of various rotor performance codes was conducted. Simultaneo...
An existing computer program, used for predicting the natural frequencies and mode shapes of helicop...
Helicopter-type rotor aerodynamics, and design problems on cruise efficiency and maneuverin
An analytical study was conducted to predict the aerodynamic characteristics of two helicopter rotor...
An experimental program has been conducted in the NASA Lewis Research Center Icing Research Tunnel (...
Flight investigations of wing-rotor lift-sharing characteristics of XH-51 helicopte
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...