Accession Number : ADA141739
Title : Active Suppression of Aeroelastic Instabilities for Forward Swept Wings.
Descriptive Note : Final rept. Jan 82-Dec 83,
Corporate Author : AIR FORCE WRIGHT AERONAUTICAL LABS WRIGHT-PATTERSON AFB OH
Personal Author(s) : Noll,T E ; Eastep,F E ; Calico,R A
PDF Url : ADA141739
Report Date : Dec 1983
Pagination or Media Count : 170
Abstract : Analytical studies are conducted to investigate the potential of using active feedback control systems for preventing multiple aeroelastic instabilities (in close proximity) from occurring within the flight envelope of an advanced forward swept wing aircraft. With the addition of wing mounted external stores, the classical bending/torsion flutter instability is driven to lower airspeeds into the vicinity of the aeroelastic instabilities more commonly associated with a forward swept wing (divergence or body freedom flutter). For these studies a typical forward swept wing configuration, adversely mass ballasted to create the dynamic characteristics similar to those caused by adding external stores, is investigated. The goal of this study is to establish concept feasibility so that the technology can be considered for future aircraft application during a design as an alternative or option for preventing aeroelastic instabilities. Analyses are conducted to design active systems for the forward swept wing, cantilevered, free in rigid pitch only, and free in rigid pitch and plunge. They are designed such that both aeroelastic instabilities are suppressed simultaneously to a velocity 20 percent above the unaugmented bending torsion flutter speed with gain margins of at least + or - 6db at this speed conditions. Obtaining large phase margins is also taken into consideration during the design analyses.
Descriptors : *AEROELASTICITY, *SWEPTFORWARD WINGS, *AERODYNAMIC CONTROL SURFACES, SUPPRESSION, FEEDBACK, CONTROL, STABILITY, FLIGHT ENVELOPE, FLUTTER, BENDING, TORSION, CONVERGENCE, EXTERNAL STORES, WING BODY CONFIGURATIONS, POLYNOMIALS, APPROXIMATION(MATHEMATICS), AERODYNAMIC FORCES, COEFFICIENTS
Subject Categories : Aerodynamics
Distribution Statement : APPROVED FOR PUBLIC RELEASE