The research used the Transonic Small Disturbance (TSD) theory to better understand the dynamic aeroelastic phenomena and factors that affect the onset of flutter and store induced Limit-Cycle Oscillations (LCO) in the transonic regime. Several parametric studies of the flutter and LCO of an aircraft wing with underwing store in the transonic regime were conducted, as well as an investigation of the effect of inclusion of store aerodynamics on the onset of flutter. The flutter sensitivity was an analyzed for the following store parameters: (i) Location of underwing store center of gravity with respect to aerodynamic root chord. (ii) Location of underwing store along the span of the wing and (iii) Underwing clearance (pylon length). Also, studies were conduced to identify the onset of LCO for different configurations of underwing store and flight regimes (unmatched analysis), thereby identifying the parameters that induce LCO. The sensitive parameters that affect flutter and LCO are identified.
Dynamic Aeroelastic Instabilities of an Aircraft Wing with Underwing Store in Transonic Regime
2003
31 pages
Report
Keine Angabe
Englisch
Dynamic Aeroelastic Instabilities of an Aircraft Wing with Underwing Store in Transonic Regime
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