Christian Maria Firrone scite author profile

In turbomachinery, the perfect detuning of turbine blades in order to avoid high cycle fatigue damage due to resonant vibration is often unfeasible due to the high modal density of bladed disks.To obtain reliable predictions of resonant stress levels of turbine blades, accurate modeling of friction damping is mandatory.Blade root is one of the most common sources of friction damping in turbine blades; energy is dissipated by friction due to microslip between the blade and the disk contact surfaces held in contact by the centrifugal force acting on the blade.In this paper, a method is presented to compute the friction forces occurring at blade root joints and to evaluate their effect on the blade dynamics. The method is based on a refined version of the state-ofthe-art contact model, currently used for the nonlinear dynamic analysis of turbine blades. The refined contact model is implemented in a numerical solver based on the harmonic balance method able to compute the steady-state dynamic response of turbine bladesThe proposed method allows solving the static and the dynamic balance equations of the blade and of the disk, without any preliminary static analysis to compute the static loads acting at the contact interfaces.

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Measurement of the kinematics of two underplatform dampers with different geometry and comparison with numerical simulation

Firrone

2009

Journal of Sound and Vibration

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Christian Maria Firrone

The effect of underplatform dampers on the forced response of bladed disks by a coupled static/dynamic harmonic balance method

A reduced order model based on sector mistuning for the dynamic analysis of mistuned bladed disks

Forced response of rotating bladed disks: Blade Tip-Timing measurements

Numerical assessment of friction damping at turbine blade root joints by simultaneous calculation of the static and dynamic contact loads

Measurement of the kinematics of two underplatform dampers with different geometry and comparison with numerical simulation

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