A mathematical model is developed and utilized to demonstrate the enhanced forced response behavior associated with aerodynamic, structural, and combined aerodynamic-structural detuning of a loaded rotor operating in an incompressible flow field. The unsteady aerodynamic gust response and oscillating cascade aerodynamics are determined by developing both a complete first-order unsteady aerodynamic analysis and a locally analytical solution in individual grid elements of a body fitted computational grid. The aerodynamic detuning is accomplished by means of alternate circumferential airfoil spacing, with alternate blade structural detuning also considered. The beneficial forced response effects of these detuning techniques are then demonstrat...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
Splitter blades as a passive flutter control technique are investigated by developing a mathematical...
A mathematical model is developed and utilized to demonstrate the enhanced forced response behavior ...
A mathematical model is developed and utilized to demonstrate the enhanced aeroelastic stability and...
High performance aircraft-engine fan and compressor blades are vulnerable to aerodynamically forced ...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
Flutter and forced response analyses for a cascade of blades in subsonic and transonic flow is prese...
An approach to passive flutter control is aerodynamic detuning, defined as designed passage-to-passa...
[[abstract]]To predict the unsteady convected gust aerodynamic response of a cascade comprised of ar...
An aerodynamic Reduced-Order Model (ROM) is introduced to describe the aeroelastic behavior of a bla...
International audienceIn the context of turbomachinery design, a small variation in the blade charac...
Mistuning, small differences among sectors of bladed disks, is unavoidable because of manufacturing ...
[[abstract]]A series of experiments are performed to investigate and quantify the unsteady aerodynam...
Mistuning changes the vibration of bladed disks dramatically. Various aeroelastic models have been u...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
Splitter blades as a passive flutter control technique are investigated by developing a mathematical...
A mathematical model is developed and utilized to demonstrate the enhanced forced response behavior ...
A mathematical model is developed and utilized to demonstrate the enhanced aeroelastic stability and...
High performance aircraft-engine fan and compressor blades are vulnerable to aerodynamically forced ...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
Flutter and forced response analyses for a cascade of blades in subsonic and transonic flow is prese...
An approach to passive flutter control is aerodynamic detuning, defined as designed passage-to-passa...
[[abstract]]To predict the unsteady convected gust aerodynamic response of a cascade comprised of ar...
An aerodynamic Reduced-Order Model (ROM) is introduced to describe the aeroelastic behavior of a bla...
International audienceIn the context of turbomachinery design, a small variation in the blade charac...
Mistuning, small differences among sectors of bladed disks, is unavoidable because of manufacturing ...
[[abstract]]A series of experiments are performed to investigate and quantify the unsteady aerodynam...
Mistuning changes the vibration of bladed disks dramatically. Various aeroelastic models have been u...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
Splitter blades as a passive flutter control technique are investigated by developing a mathematical...