Experimental Investigation of Aerodynamic Hysteresis Using a Five-Degree-of-Freedom Wind-Tunnel Maneuver Rig

The high-incidence aerodynamics of a lightweight jet trainer aircraft model has been investigated using a novel five-degree-of-freedom (DOF) dynamic maneuver rig, recently updated with improved actuation and data acquisition systems, in the 7×5  ft closed-section low-speed wind tunnel at the Univers...

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Bibliographic Details
Published in:Journal of aircraft 2019-05, Vol.56 (3), p.1029-1039
Main Authors: Gong, Z, Araujo-Estrada, S, Lowenberg, M. H, Neild, S. A, Goman, M. G
Format: Article
Language:English
Subjects:
Actuation
Aerodynamic characteristics
Aerodynamic forces
Aerodynamics
Aircraft
Aircraft models
Angle of attack
Control theory
Degrees of freedom
Elevators (control surfaces)
Feedback control
Hysteresis
Low speed wind tunnels
Pitch (inclination)
Rolling motion
Stalling
Training aircraft
Yaw
Yawing moments
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Summary:The high-incidence aerodynamics of a lightweight jet trainer aircraft model has been investigated using a novel five-degree-of-freedom (DOF) dynamic maneuver rig, recently updated with improved actuation and data acquisition systems, in the 7×5  ft closed-section low-speed wind tunnel at the University of Bristol. The major focus was to identify the nonlinear and unsteady aerodynamic characteristics specific to the stall region and which affect free-to-move aircraft-model behavior. First, the unstable equilibrium states in the limit-cycle regions were stabilized, and so observed, over a wide range of angles of attack using a simple elevator feedback control law based on pitch angle and pitch-rate sensor measurements. Tests with two DOF, namely, the aircraft model and rig-arm pitch angles, revealed the existence of static hysteresis in the normal force acting on the aircraft model in the stall region. Unlocking the aircraft model in roll and yaw accompanied by feedback stabilization of the lateral–directional modes of motion demonstrated the onset of asymmetric aerodynamic rolling and yawing moments in this four-DOF configuration. This observation implicitly indicates a link between the static hystereses in the normal aerodynamic force with an onset of aerodynamic asymmetry. The experimental results show the efficiency of the updated multi-DOF actively controlled maneuver rig in providing insight into complicated aerodynamic effects within the stall region.
ISSN:0021-8669
1533-3868
DOI:10.2514/1.C034995