An aeroelastic analysis is presented which accounts for the effect of steady aerodynamic loading on the aeroelastic stability of a cascade of compressor blades. The aeroelastic model is a two degree of freedom model having bending and torsional displacements. A linearized unsteady potential flow theory is used to determine the unsteady aerodynamic response coefficients for the aeroelastic analysis. The steady aerodynamic loading was caused by the addition of airfoil thickness and camber and steady flow incidence. The importance of steady loading on the airfoil unsteady pressure distribution is demonstrated. Additionally, the effect of steady loading on the tuned flutter behavior and flutter boundaries indicates that neglecting either airfoi...
A new method for computing the effect that small changes in the airfoil shape and cascade geometry h...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The requirements placed on an unsteady aerodynamic theory intended for turbomachinery aeroelastic or...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
Best Paper and Presentation Award at AIAA Region III Student ConferenceThe aircraft engine is a key ...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
Parametric studies on the unstalled flutter stability characteristics of compressor and turbine casc...
There is a need for methods to predict the unsteady air loads associated with flutter of turbomachin...
The objective of this paper is to describe an accurate and efficient reduced order modeling method f...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
A set of aeroelastic equations describing the motion of an arbitrarily mistuned cascade with flexibl...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
State-of-the-art prediction of the aeroelastic stability of cascades in axial-flow turbomachines is ...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
A new method for computing the effect that small changes in the airfoil shape and cascade geometry h...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The requirements placed on an unsteady aerodynamic theory intended for turbomachinery aeroelastic or...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
Best Paper and Presentation Award at AIAA Region III Student ConferenceThe aircraft engine is a key ...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
Parametric studies on the unstalled flutter stability characteristics of compressor and turbine casc...
There is a need for methods to predict the unsteady air loads associated with flutter of turbomachin...
The objective of this paper is to describe an accurate and efficient reduced order modeling method f...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
A set of aeroelastic equations describing the motion of an arbitrarily mistuned cascade with flexibl...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
State-of-the-art prediction of the aeroelastic stability of cascades in axial-flow turbomachines is ...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
A new method for computing the effect that small changes in the airfoil shape and cascade geometry h...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...