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Flight Test Results From a Supercritical Mission Adaptive Wing With Smooth Variable CamberThe mission adaptive wing (MAW) consisted of leading- and trailing-edge variable-camber surfaces that could be deflected in flight to provide a near-ideal wing camber shape for any flight condition. These surfaces featured smooth, flexible upper surfaces and fully enclosed lower surfaces, distinguishing them from conventional flaps that have discontinuous surfaces and exposed or semiexposed mechanisms. Camber shape was controlled by either a manual or automatic flight control system. The wing and aircraft were extensively instrumented to evaluate the local flow characteristics and the total aircraft performance. This paper discusses the interrelationships between the wing pressure, buffet, boundary-layer and flight deflection measurement system analyses and describes the flight maneuvers used to obtain the data. The results are for a wing sweep of 26°, a Mach number of 0.85, leading and trailing-edge cambers (δLE/TE) of 0/2 and 5/10, and angles of attack from 3.0° to 14.0°. For the well-behaved flow of the δLE/TE = 0/2 camber, a typical cruise camber shape, the local and global data are in good agreement with respect to the flow properties of the wing. For the δLE/TE = 5/10 camber, a maneuvering camber shape, the local and global data have similar trends and conclusions, but not the clear-cut agreement observed for cruise camber.
Document ID
19930027277
Acquisition Source
Armstrong Flight Research Center
Document Type
Conference Paper
Authors
Sheryll Goecke Powers
(Dryden Flight Research Facility Edwards, California, United States)
Lannie D Webb
(Dryden Flight Research Facility Edwards, California, United States)
Edward L Friend
(Dryden Flight Research Facility Edwards, California, United States)
William A Lokos
(Dryden Flight Research Facility Edwards, California, United States)
Date Acquired
August 15, 2013
Publication Date
August 24, 1992
Publication Information
Publication: 6th AIAA Biennial Flight Test Conference
Publisher: American Institute of Aeronautics and Astronautics
Subject Category
Aircraft Design, Testing and Performance
Report/Patent Number
AIAA-92-4101
Meeting Information
Meeting: 6th AIAA Biennial Flight Test Conference
Location: Hilton Head, SC
Country: US
Start Date: August 24, 1992
End Date: August 26, 1992
Sponsors: American Institute of Aeronautics and Astronautics
Accession Number
93A11274
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
Keywords
Flight Testing
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