Add to ORKGExcessive vibration remains one one of the most difficult problems that faces the helicopter industry today, affecting all production helicopters at some phase of their development. Vibrations in rotating structures may arise from external periodic dynamic airloads whose frequencies are are close to the natural frequencies of the rotating system itself. The goal for the structures engineer would thus be to design a structure as free from resonance effects as possible. In the case of a helicopter rotor blade these dynamic loads are a consequence of asymmetric airload distribution on the rotor blade in forward flight, leading to a rich collection of higher harmonic airloads that force rotor and airframe response. Accurate prediction of the dy...
Results of analytical investigations to develop, understand, and evaluate potential helicopter vibra...
Rotating blade frequencies for a model generic helicopter rotor blade mounted on an articulated hub ...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
The requirement for low vibrations has achieved the status of a critical design consideration in mod...
An experimental study was conducted in the Langley Transonic Dynamics Tunnel to investigate the use ...
The nature of the aerodynamic environment surrounding a helicopter causes a significant amount of vi...
Harmonic rotor hub loads and airframe interactions in steady flight are reviewed, with regard to the...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Excessive vibration is one of the most prevalent technical obstacles encountered in the development ...
A theoretical investigation of structural vibration characteristics of rotor blades was carried out....
The importance of blade design parameters in rotor vibratory response and the design of a minimum vi...
Under a research program designated Design Analysis Methods for VIBrationS (DAMVIBS), existing analy...
Experimental studies of isolated rotors in forward flight have indicated that higher harmonic pitch ...
The effect of an attached concentrated mass on the dynamics of helicopter rotor blades is determined...
Results of analytical investigations to develop, understand, and evaluate potential helicopter vibra...
Rotating blade frequencies for a model generic helicopter rotor blade mounted on an articulated hub ...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
The dynamic structural analysis of rotary winged aircraft is reported, considering helicopter vibrat...
The requirement for low vibrations has achieved the status of a critical design consideration in mod...
An experimental study was conducted in the Langley Transonic Dynamics Tunnel to investigate the use ...
The nature of the aerodynamic environment surrounding a helicopter causes a significant amount of vi...
Harmonic rotor hub loads and airframe interactions in steady flight are reviewed, with regard to the...
Helicopter airframe vibration is examined using calculations and measurements for the SA349/2 resear...
Excessive vibration is one of the most prevalent technical obstacles encountered in the development ...
A theoretical investigation of structural vibration characteristics of rotor blades was carried out....
The importance of blade design parameters in rotor vibratory response and the design of a minimum vi...
Under a research program designated Design Analysis Methods for VIBrationS (DAMVIBS), existing analy...
Experimental studies of isolated rotors in forward flight have indicated that higher harmonic pitch ...
The effect of an attached concentrated mass on the dynamics of helicopter rotor blades is determined...
Results of analytical investigations to develop, understand, and evaluate potential helicopter vibra...
Rotating blade frequencies for a model generic helicopter rotor blade mounted on an articulated hub ...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...