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Order-Tuned Vibration Absorbers for Cyclic Rotating Flexible Structures. Background. Bladed Disk Assemblies. Background. Engine Order Excitation. Background. Conditions for Resonance. Background. Vibration Reduction via Order-Tuned Absorbers. Background. Self-tuning Impact Damper.
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Order-Tuned Vibration Absorbers for Cyclic Rotating Flexible Structures
Background Bladed Disk Assemblies
Background Engine Order Excitation
Background Conditions for Resonance
Background Vibration Reduction via Order-Tuned Absorbers
Background Self-tuning Impact Damper Turbine Blade Sleeves Tuned Dampers Chamber & End Caps
Vibration Characteristics Free Vibration – One DOF/Sector
Vibration Characteristics Free Vibration – One DOF/Sector
Vibration Characteristics Free Vibration – One DOF/Sector
Vibration Characteristics Free Vibration – One DOF/Sector
Vibration Characteristics Free Vibration – One DOF/Sector
Mathematical Model Bladed Disk Assembly with Absorbers
Mathematical Model Linearized System Model
Modal Analysis Block Decoupling the EOM
Modal Analysis Steady-State Modal Response
Modal Analysis Steady-State Modal Response
Modal Analysis Steady-State Modal Response
Special Cases • Blades Locked, Absorbers Free • Gives Absorber Tuning Order • Blades Free, Absorbers Locked • A Benchmark to evaluate absorber performance • Single Isolated Sector, Blade/Absorber Free • Demonstrates the essential features of the full coupled system
Special Case 1 Blades Locked, Absorbers Free
Special Case 2 Blades Free, Absorbers Locked
Special Case 2 Blades Free, Absorbers Locked
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Special Case 3 Single Isolated Sector, Blade/Absorber Free
Linear Forced Response N = 10 Sectors, Blades/Absorbers Free
Linear Forced Response MOVIE
Linear Forced Response The Effects of Detuning: No-Resonance Gap
Linear Forced Response Summary of Frequency Response
Summary • Linear, Perfectly Periodic System • Blades/Absorbers: absorber effective • Eigenfrequency structure: no resonance zone Directions for Future Work • Effects of damping • Effects of mistuning • General-path absorbers • Multi-DOF blade models • Nonlinear effects • Intentional mistuning