Forced vibrations can lead to an irreparable damage of a blade array. Devices called "underplatform damper" that dissipate the vibration energy are employed in order to reduce blade vibration amplitude. The present paper deals with the design of the underplatform damper. A numerical code to calculate the forced response of a blade array with dampers has been previously purposely developed. A method is here proposed for the estimation of the unknown contact parameters demanded by the code. The computation results are here validated by means of comparison with experimental results on a static test rig. Three dampers with different shape are teste
Several experimental apparatus have been designed in the past to evaluate the effectiveness of under...
Under platform-dampers (UPDs) are commonly used devices in turbomachinery to mitigate the turbine bl...
Underplatform dampers (UPD) are commonly used in aircraft engines to mitigate the risk of high-cycle...
Forced vibrations can lead to an irreparable damage of a blade array. Devices called “underplatform ...
In this paper, a novel method to compute the static balance of turbine blades with underplatform dam...
Friction damping is one of the most exploited systems of passive control of the vibration of mechani...
The thesis project is directly concerned with safety and reliability as it addresses the problem of ...
Underplatform dampers (UPDs) are still in use to reduce the vibration amplitude of turbine blades an...
The paper presents the experimental activity about the dynamic response of the blades of a gas turbi...
In the field of turbomachinery, one of the prime design aspects is to avoid high cycle fatigue failu...
International audienceHigh-cycle fatigue caused by large resonance stresses remains one of the most ...
High cycle fatigue is one of the main causes of failure of blades in turbomachinery. The negative im...
Underplatform dampers (UPDs) are still in use to reduce the vibration amplitude of turbine blades an...
Several experimental apparatus have been designed in the past to evaluate the effectiveness of under...
The paper presents a calculation procedure for the design of turbine blades with underplatform dampe...
Several experimental apparatus have been designed in the past to evaluate the effectiveness of under...
Under platform-dampers (UPDs) are commonly used devices in turbomachinery to mitigate the turbine bl...
Underplatform dampers (UPD) are commonly used in aircraft engines to mitigate the risk of high-cycle...
Forced vibrations can lead to an irreparable damage of a blade array. Devices called “underplatform ...
In this paper, a novel method to compute the static balance of turbine blades with underplatform dam...
Friction damping is one of the most exploited systems of passive control of the vibration of mechani...
The thesis project is directly concerned with safety and reliability as it addresses the problem of ...
Underplatform dampers (UPDs) are still in use to reduce the vibration amplitude of turbine blades an...
The paper presents the experimental activity about the dynamic response of the blades of a gas turbi...
In the field of turbomachinery, one of the prime design aspects is to avoid high cycle fatigue failu...
International audienceHigh-cycle fatigue caused by large resonance stresses remains one of the most ...
High cycle fatigue is one of the main causes of failure of blades in turbomachinery. The negative im...
Underplatform dampers (UPDs) are still in use to reduce the vibration amplitude of turbine blades an...
Several experimental apparatus have been designed in the past to evaluate the effectiveness of under...
The paper presents a calculation procedure for the design of turbine blades with underplatform dampe...
Several experimental apparatus have been designed in the past to evaluate the effectiveness of under...
Under platform-dampers (UPDs) are commonly used devices in turbomachinery to mitigate the turbine bl...
Underplatform dampers (UPD) are commonly used in aircraft engines to mitigate the risk of high-cycle...