The aeroelastic behavior of wing models is nonlinear particularly in the transonic Speed range. The interaction between aerodynamic and structural forces can lead to the occurrence of Limit-Cycle Oscillations (LCOs). If in addition the wing model is flexible and backward swept, the kinematic coupling between bending and torsion makes the Situation even more complex. In the research project ‘‘Aerostabil’’ such a wing was investigated, which was equipped with pressure transducers in three sections and accelerometers. The experiments were performed in the adaptive test section of the transonic wind tunnel TWG in Göttingen. Already Dietz et al. (2003) have reported about experimental details and preliminary results. Based on these data Bendik...
The stability boundaries of a very flexible wing are sought to inform a wind-tunnel flutter test cam...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
The aeroelastic behavior of wing models is nonlinear particularly in the transonic Speed range. The ...
The development in the last decades generally shows that large aircraft wings have become more light...
In order to study the typical transonic phenomena in as pure a form as possible, we used a model hav...
This test report describes briefly a part of a wind-tunnel test campaign TWG200323WBAE carried out b...
Limit-cycle oscillation, or LCO, is an aeroelastic phenomenon characterized by limited amplitude, se...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
In order to study each of the typical transonic phenomena in as pure a form as possible, we used a m...
Futuristic aircraft designs and novel aircraft such as High Altitude Long Endurance (HALE) involve a...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
The nature of nonlinear aerodynamic effects for transonic Limit Cycle Oscillation (LCO) mechanisms a...
Results from flutter and forced-oscillation wind-tunnel experiments at flow conditions close to the ...
The potential role of shock induced trailing edge separation (SITES) in limit cycle oscillations (LC...
The stability boundaries of a very flexible wing are sought to inform a wind-tunnel flutter test cam...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
The aeroelastic behavior of wing models is nonlinear particularly in the transonic Speed range. The ...
The development in the last decades generally shows that large aircraft wings have become more light...
In order to study the typical transonic phenomena in as pure a form as possible, we used a model hav...
This test report describes briefly a part of a wind-tunnel test campaign TWG200323WBAE carried out b...
Limit-cycle oscillation, or LCO, is an aeroelastic phenomenon characterized by limited amplitude, se...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
In order to study each of the typical transonic phenomena in as pure a form as possible, we used a m...
Futuristic aircraft designs and novel aircraft such as High Altitude Long Endurance (HALE) involve a...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
The nature of nonlinear aerodynamic effects for transonic Limit Cycle Oscillation (LCO) mechanisms a...
Results from flutter and forced-oscillation wind-tunnel experiments at flow conditions close to the ...
The potential role of shock induced trailing edge separation (SITES) in limit cycle oscillations (LC...
The stability boundaries of a very flexible wing are sought to inform a wind-tunnel flutter test cam...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...