Results from flutter and forced-oscillation wind-tunnel experiments at flow conditions close to the transonic dip are presented. Flutter boundaries exhibiting a transonic dip were determined and limit-cycle oscillations (LCOs) were measured. The local energy exchange between the fluid and the structure during LCOs is examined and leads to the following findings: at supercritical Mach numbers below that of the transonic-dip minimum the presence of a shock-wave and its dynamics destabilizes the aeroelastic system such that the decreasing branch of the transonic dip develops. At higher Mach numbers the shock-wave motion has a stabilizing effect such that the flutter boundary increases to higher flutter-speed indices with increasing Mach numbe...
The transonic flutter dip of an aeroelastic system is primarily caused by compressibility of the flo...
In order to improve the aerodynamic performance and extend the flight envelope of next-generation ai...
We study the influence of shock and boundary layer interactions in transonic flutter of an aeroelast...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
In order to study the typical transonic phenomena in as pure a form as possible, we used a model hav...
In order to study each of the typical transonic phenomena in as pure a form as possible, we used a m...
Results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions near the t...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
In the recently modified DLR transonic wind tunnel in Goettingen, flutter measurements were performe...
This test report describes briefly a part of a wind-tunnel test campaign TWG200323WBAE carried out b...
The aeroelastic behavior of wing models is nonlinear particularly in the transonic Speed range. The ...
This paper reports about our experimental and numerical investigations of forced and self-sustained ...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
The potential role of shock induced trailing edge separation (SITES) in limit cycle oscillations (LC...
The transonic flutter dip of an aeroelastic system is primarily caused by compressibility of the flo...
In order to improve the aerodynamic performance and extend the flight envelope of next-generation ai...
We study the influence of shock and boundary layer interactions in transonic flutter of an aeroelast...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
In order to study the typical transonic phenomena in as pure a form as possible, we used a model hav...
In order to study each of the typical transonic phenomena in as pure a form as possible, we used a m...
Results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions near the t...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
In the recently modified DLR transonic wind tunnel in Goettingen, flutter measurements were performe...
This test report describes briefly a part of a wind-tunnel test campaign TWG200323WBAE carried out b...
The aeroelastic behavior of wing models is nonlinear particularly in the transonic Speed range. The ...
This paper reports about our experimental and numerical investigations of forced and self-sustained ...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
The potential role of shock induced trailing edge separation (SITES) in limit cycle oscillations (LC...
The transonic flutter dip of an aeroelastic system is primarily caused by compressibility of the flo...
In order to improve the aerodynamic performance and extend the flight envelope of next-generation ai...
We study the influence of shock and boundary layer interactions in transonic flutter of an aeroelast...