The Aeroelasticity Branch at NASA Langley Research Center has a long and substantive history of tiltrotor aeroelastic research. That research has included a broad range of experimental investigations in the Langley Transonic Dynamics Tunnel (TDT) using a variety of scale models and the development of essential analyses. Since 1994, the tiltrotor research program has been using a 1/5-scale, semispan aeroelastic model of the V-22 designed and built by Bell Helicopter Textron Inc. (BHTI) in 1981. That model has been refurbished to form a tiltrotor research testbed called the Wing and Rotor Aeroelastic Test System (WRATS) for use in the TDT. In collaboration with BHTI, studies under the current tiltrotor research program are focused on aeroelas...
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...
Tiltrotor aircraft encounter an aeroelastic instability called whirl flutter at high speeds. Whirl f...
A team of researchers from the Army Research Laboratory, NASA Langley Research Center (LaRC), and Be...
A generalized predictive control has been developed for the control of the aeroelasticity and struct...
This work describes the application of an adaptive control algorithm based on the generalized predic...
A wind-tunnel investigation of tiltrotor whirl-flutter stability boundaries has been conducted on a ...
The goals of this research were to restore generalized predictive control (GPC) capability at NASA a...
Abstract.. The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the p...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The use of active control to augment whirl flutter stability of tiltrotor aircraft is studied by mea...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The results of a numerical study on prop-rotor whirl flutter stability augmentation are presented in...
The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential of...
* The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential ...
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...
Tiltrotor aircraft encounter an aeroelastic instability called whirl flutter at high speeds. Whirl f...
A team of researchers from the Army Research Laboratory, NASA Langley Research Center (LaRC), and Be...
A generalized predictive control has been developed for the control of the aeroelasticity and struct...
This work describes the application of an adaptive control algorithm based on the generalized predic...
A wind-tunnel investigation of tiltrotor whirl-flutter stability boundaries has been conducted on a ...
The goals of this research were to restore generalized predictive control (GPC) capability at NASA a...
Abstract.. The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the p...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The use of active control to augment whirl flutter stability of tiltrotor aircraft is studied by mea...
A new four-bladed, semi-articulated, soft-inplane rotor system, designed as a candidate for future h...
The results of a numerical study on prop-rotor whirl flutter stability augmentation are presented in...
The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential of...
* The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential ...
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...
Tiltrotor aircraft encounter an aeroelastic instability called whirl flutter at high speeds. Whirl f...