A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future heavy-lift rotorcraft, was tested at model scale on the Wing and Rotor Aeroelastic Testing System (WRATS), a 1/5-size aeroelastic wind-tunnel model based on the V-22. The experimental investigation included a hover test with the model in helicopter mode subject to ground resonance conditions, and a forward #ight test with the model in airplane mode subject to whirl-#utter conditions. An active control system designed to augment system damping was also tested as part of this investigation. Results of this study indicate that the new four-bladed, soft-inplane rotor system in hover has adequate damping characteristics and is stable throughout its...
The Aeroelasticity Branch at NASA Langley Research Center has a long and substantive history of tilt...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
This paper focuses on the development of multibody numerical models to predict the dynamic response,...
A wind-tunnel investigation of tiltrotor whirl-flutter stability boundaries has been conducted on a ...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
Two isolated, hingeless rotors with identical fiber-reinforced composite root flexures were tested i...
The Aeroelasticity Branch at NASA Langley Research Center has a long and substantive history of tilt...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
This paper focuses on the development of multibody numerical models to predict the dynamic response,...
A wind-tunnel investigation of tiltrotor whirl-flutter stability boundaries has been conducted on a ...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
This investigation focuses on the development of multibody analytical models to predict the dynamic ...
Two isolated, hingeless rotors with identical fiber-reinforced composite root flexures were tested i...
The Aeroelasticity Branch at NASA Langley Research Center has a long and substantive history of tilt...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...
Tiltrotor performance is constrained by coupled wing/rotor whirl-mode aeroelastic instability. Two p...