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The X-53 Active Aeroelastic Wing (AAW) development program is a completed American research project that was undertaken jointly by the
Air Force Research Laboratory The Air Force Research Laboratory (AFRL) is a scientific research and development detachment of the United States Air Force Air Force Materiel Command, Materiel Command dedicated to leading the discovery, development, and integration of direct- ...
(AFRL), Boeing Phantom Works and
NASA The National Aeronautics and Space Administration (NASA ) is an independent agencies of the United States government, independent agency of the federal government of the United States, US federal government responsible for the United States ...
's Dryden Flight Research Center, where the technology was flight tested on a modified
McDonnell Douglas F/A-18 Hornet The McDonnell Douglas F/A-18 Hornet is an all-weather supersonic, twinjet, twin-engine, carrier-based aircraft, carrier-capable, Multirole combat aircraft, multirole combat aircraft, designed as both a Fighter aircraft, fighter and attack airc ...
. Active Aeroelastic Wing Technology is a technology that integrates wing aerodynamics, controls, and structure to harness and control wing aeroelastic twist at high speeds and dynamic pressures. By using multiple leading and trailing edge controls like "aerodynamic tabs", subtle amounts of aeroelastic twist can be controlled to provide large amounts of wing control power, while minimizing maneuver air loads at high wing strain conditions or aerodynamic drag at low wing strain conditions. This program was the first full-scale proof of AAW technology.


Development

Development of the initial concept was done with wind-tunnel testing in the mid 1980s under Air Force contract. The designation "X-52" was skipped in sequence to avoid confusion with Boeing's
B-52 Stratofortress The Boeing B-52 Stratofortress is an American long-range, subsonic aircraft, subsonic, jet-powered strategic bomber. The B-52 was designed and built by Boeing, which has continued to provide support and upgrades. It has been operated by the ...
bomber. The pre-production version of the F/A-18 was an ideal aircraft for proving AAW technology, a relatively high wing aspect ratio for a fighter, with adequate strength, but no additional stiffness needed to be added to change its twisting behaviour. The X-53 F/A-18 was modified to allow two leading edge control surfaces to work together with its two trailing edge surfaces to control wing aeroelastic twist and provide excellent high speed rolling performance. AAW was developed from the knowledge that the aeroelasticity of the wing, caused by deflecting one control surface, can be offset by deflecting other control surfaces. In particular, almost all modern aircraft use some form of slat along the wing
leading edge The leading edge is the part of the wing that first contacts the air;Crane, Dale: ''Dictionary of Aeronautical Terms, third edition'', page 305. Aviation Supplies & Academics, 1997. alternatively it is the foremost edge of an airfoil sectio ...
to provide more lift during certain portions of flight. By deploying the slats at the same time as the ailerons their twisting effect on the main structural parts of the wing, oppose one another which eliminates the twisting. This improves the ability of the ailerons to produce large rolling moments on the aircraft. This means that less aileron deflection is needed to produce a required motion, which, in turn, will reduce aileron drag and its associated unwanted tendency to cause the aircraft to yaw. If the controls can be used to eliminate the twisting and its negative effects on control input, the next step is to deliberately introduce some twisting which adds to the effect of the control deflection. When applied correctly, the wing will twist less and in an opposite direction to a conventional wing during maneuvering. So this change, which can be accomplished in software, benefits overall performance.


Flight testing

To test the AAW theory, NASA and the USAF agreed to fund development of a single demonstrator, based on the F/A-18. Work started by taking an existing F/A-18 airframe modified with a preproduction wing, and added an outboard leading edge flap drive system and an updated flight control computer. Active aeroelastic wing control laws were developed to flex the wing, and flight instrumentation was used to accurately measure the aeroelastic performance of the wing planform. Flight software was then modified for flight testing, and the aircraft first flew in modified form on November 15, 2002. The aircraft successfully proved the viability of the concept in full scale during roll maneuver testing in 2004–2005. The test aircraft was re-designated X-53 on August 16, 2006, per memo by USAF Deputy Chief of Staff, Strategic Plans and Programs.


Specifications


See also


References

;Footnotes


Further reading

* Miller, G.D., ''Active Flexible Wing (AFW) Technology'', Air Force Wright Aeronautical Laboratories TR-87-3096, February, 1988. * Miller, G.D., ''AFW Design Methodology Study'', Rockwell-Aerospace Report No. NA 94-1731, December 1994. * Pendleton, E., Griffin, K., Kehoe, M., and Perry, B., "A Flight Research Program for Active Aeroelastic Wing Technology", Paper 96-1574, Proceedings of the 37th AIAA Structures, Structural Dynamics, and Materials Conference, Salt Lake City, Utah, 15–17 April 1996. * Zillmer, S., "Integrated Multidisciplinary Optimization for Aeroelastic Wing Design", Wright Laboratory TR-97-3087, August 1997. * Zillmer, S., ''Integrated Structure/Maneuver Design Procedure for Active Aeroelastic Wings, User's Manual'', Wright Laboratory TR-97-3087, March 1997. * Pendleton, E., Bessette, D., Field P., Miller, G., and Griffin, K., "Active Aeroelastic Wing Flight Research Program: Technical Program & Model Analytical Development", ''Journal of Aircraft'', Volume 37, Number 4, July–August 2000. * Pendleton, E., " Active Aeroelastic Wing", AFRL Technology Horizons, Selected Science and Technology Articles, Vol. 1, No. 2, June 2000. *Edmund W. Pendleton, "How Active Aeroelastic Wings are a Return to Aviation's Beginning and a Small Step to Future Bird-like Wings", Invited Paper, Japan Society of Aeronautical and Space Sciences Aircraft Symposium, Sendai, Japan, 11 October 2000. * The Boeing Company, ''The Active Aeroelastic Wing Flight Research Program (The X-53) Final Report'', Volume 1 and II, AFRL-VA-WP-TR-2005-3082, October 2005. * Pendleton, E., Flick, P., Voracek, D., Reichenbach, E., Griffin, K., Paul, D., "The X-53: A Summary of the Active Aeroelastic Wing Flight Research Program", Paper 07-1855, Proceedings of the 48th AIAA Structures, Structural Dynamics, and Materials Conference, Honolulu, Hawaii, 23–26 April 2007.


External links

*
Boeing Active Aeroelastic Wing page



''Boeing X-53 (2006): Active Aeroelastic Wing''
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