Aeroservoelastic Stability Analysis of the X-43A Stack
Pak, Chan-gi (2008) Aeroservoelastic Stability Analysis of the X-43A Stack. Technical Report NASA/TM-2008-214635, Research and Engineering, NASA Dryden Flight Research Center.
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Abstract
The first air launch attempt of an X-43A stack, consisting of the booster, adapter and Hyper-X research vehicle, ended in failure shortly after the successful drop from the National Aeronautics and Space Administration Dryden Flight Research Center (Edwards, California) B-52B airplane and ignition of the booster. The stack was observed to begin rolling and yawing violently upon reaching transonic speeds, and the grossly oscillating fins of the booster separated shortly thereafter. The flight then had to be terminated with the stack out of control. Very careful linear flutter and aeroservoelastic analyses were subsequently performed as reported herein to numerically duplicate the observed instability. These analyses properly identified the instability mechanism and demonstrated the importance of including the flight control laws, rigid-body modes, structural flexible modes and control surface flexible modes. In spite of these efforts, however, the predicted instability speed remained more than 25 percent higher than that observed in flight. It is concluded that transonic shock phenomena, which linear analyses cannot take into account, are also important for accurate prediction of this mishap instability.
| EPrint Type: | NASA Technical Memorandum |
|---|---|
| Keywords: | B-52B airplane, Body freedom flutter, Closed-loop flutter, Hyper-X research vehicle, Mishap instability, Open-loop flutter, X-43A stack |
| Subjects: | Aircraft/Project: B-52 Aircraft/Project: X-43A Hyper-X (01 - 09) Aeronautics: (08) Aircraft Stability And Control |
| ID Code: | 1879 |
| Deposited On: | 07 May 2008 |
| Additional Information: | 21 pages. Pak, NASA Dryden Flight Research Center. |
