International audienceHigh-cycle fatigue caused by large resonance stresses remains one of the most common causes of turbine blades failures. Friction dampers are one of the most effective and practical solutions to limit the vibration amplitude, and shift the resonance frequencies of the turbine assemblies far from operating speeds. However, predicting with good accuracy the effects of underplatform dampers on the blades dynamics, still represents a major challenge today, due to the complex nature of the nonlinear forces at the interface, characterised by transitions between stick, slip, and separation conditions. The most common modelling approaches developed recently are based on the explicit FE model for the damper, and on a dense grid ...
Forced vibrations can lead to an irreparable damage of a blade array. Devices called “underplatform ...
Underplatform dampers (UPDs) are widely used as a source of friction damping and are frequently inco...
Under-platform dampers are commonly adopted in order to mitigate resonant vibration of turbine blade...
High-cycle fatigue caused by large resonance stresses remains one of the most common causes of turbi...
A crucial part of building reliable models for the design of under-platform dampers for turbine blad...
Detuning of gas turbine blades in order to avoid high cycle fatigue failure due to large resonant st...
Abstract. Detuning of gas turbine blades in order to avoid high cycle fatigue failure due to large r...
Underplatform dampers (UPD) are commonly used in aircraft engines to mitigate the risk of high-cycle...
Underplatform dampers are widely used to dissipate vibration energy and to further prevent high cycl...
Dry friction devices such as underplatform dampers are commonly included in turbine bladed disks des...
Friction damping is one of the most exploited systems of passive control of the vibration of mechani...
Dry friction devices such as underplatform dampers are commonly included in turbine bladed disks des...
Under-platform damper is used to attenuate resonant response and further prevent high cycle fatigue ...
Under-platform dampers are commonly adopted in order to mitigate resonant vibration of turbine blade...
Friction damping is one of the most exploited systems of passive control of vibration of mechanical ...
Forced vibrations can lead to an irreparable damage of a blade array. Devices called “underplatform ...
Underplatform dampers (UPDs) are widely used as a source of friction damping and are frequently inco...
Under-platform dampers are commonly adopted in order to mitigate resonant vibration of turbine blade...
High-cycle fatigue caused by large resonance stresses remains one of the most common causes of turbi...
A crucial part of building reliable models for the design of under-platform dampers for turbine blad...
Detuning of gas turbine blades in order to avoid high cycle fatigue failure due to large resonant st...
Abstract. Detuning of gas turbine blades in order to avoid high cycle fatigue failure due to large r...
Underplatform dampers (UPD) are commonly used in aircraft engines to mitigate the risk of high-cycle...
Underplatform dampers are widely used to dissipate vibration energy and to further prevent high cycl...
Dry friction devices such as underplatform dampers are commonly included in turbine bladed disks des...
Friction damping is one of the most exploited systems of passive control of the vibration of mechani...
Dry friction devices such as underplatform dampers are commonly included in turbine bladed disks des...
Under-platform damper is used to attenuate resonant response and further prevent high cycle fatigue ...
Under-platform dampers are commonly adopted in order to mitigate resonant vibration of turbine blade...
Friction damping is one of the most exploited systems of passive control of vibration of mechanical ...
Forced vibrations can lead to an irreparable damage of a blade array. Devices called “underplatform ...
Underplatform dampers (UPDs) are widely used as a source of friction damping and are frequently inco...
Under-platform dampers are commonly adopted in order to mitigate resonant vibration of turbine blade...