An experimental parametric analysis has been completed for close-coupled canard effects on the transonic aerodynamics of a generalized wing-body aircraft configuration. The parameters investigated include wing sweep and position and deflection and planform of the canard for aircraft configurations with horizontal tail on and tail off. It was found that a 45-degree delta canard at approximately -5-degrees deflection, located above and forward of but slightly overlapping the wing, gave the best overall performance. A canard placed properly with respect to a 50-degree sweep wing resulted in aerodynamic performance suitable for a highly maneuverable fighter. Further, a close-coupled canard used with the 25-degree sweep wing resulted in aerodynamic performance desirable for attack/bomber missions. In addition, it was found that a properly placed canard was useful in alleviating aircraft buffet, particularly on the wing with the 50-degree leading edge sweep. (Author)
Parametric Analysis of Close Coupled Canard Transonic Aerodynamics for a Generalized Wing-Body Configuration
1977
63 pages
Report
No indication
English
Aerodynamics , Aircraft , Wing body configurations , Canard configuration , Flight maneuvers , Transonic characteristics , Delta wings , Parametric analysis , Maneuverability , Deflection , Missions , Attack aircraft , Bombing , Fighter aircraft , Lift to drag ratio , Buffeting , Leading edges , Sweptback wings , Angles , Transonic flow , Coupling(Interaction) , Wind tunnel models , Transonic wind tunnels
Effect of Canard Deflection on Close-Coupled Canard-Wing-Body Aerodynamics
Online Contents | 1994
|