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contributor authorFörster, Alwin
contributor authorPanning-von Scheidt, Lars
contributor authorWallaschek, Jörg
date accessioned2022-02-05T22:21:27Z
date available2022-02-05T22:21:27Z
date copyright3/11/2021 12:00:00 AM
date issued2021
identifier issn0742-4795
identifier othergtp_143_05_051005.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4277393
description abstractThis article addresses the vibrational behavior of bladed disk assemblies with nonlinear shroud coupling under random excitation. In order to increase the service life and safety of turbine blades, intense calculations are carried out to predict the vibrational behavior. The use of friction dampers for energy dissipation and suppression of large amplitudes makes the mechanical system nonlinear, which complicates the calculations. Depending on the stage, different types of excitation can occur in a turbine, from clearly defined deterministic to random excitation. So far, the latter problem has only been dealt with to a limited extent in the literature on turbomachinery. Nevertheless, there are in general different approaches and methods to address this problem most of which are strongly restricted with regard to the number of degrees-of-freedom (DOF). The focus of this paper is the application of an equivalent linearization method (ELM) to calculate the stochastic response of an academic model of a bladed disk assembly under random excitation. The nonlinear contact is modeled both with an elastic Coulomb-slider and a Bouc–Wen formulation to reproduce the hysteretic character of a friction nonlinearity occurring in the presence of a friction damper. Both the excitation and the response are limited to mean-free, stationary stochastic processes, which means that the stochastic moments do not change over time. Unlike previous papers on this topic, the calculations are performed on a full bladed disk assembly in which each segment is approximated with several degrees-of-freedom.
publisherThe American Society of Mechanical Engineers (ASME)
titleEquivalent Linearization of Bladed Disk Assemblies With Friction Nonlinearities Under Random Excitation
typeJournal Paper
journal volume143
journal issue5
journal titleJournal of Engineering for Gas Turbines and Power
identifier doi10.1115/1.4048407
journal fristpage051005-1
journal lastpage051005-9
page9
treeJournal of Engineering for Gas Turbines and Power:;2021:;volume( 143 ):;issue: 005
contenttypeFulltext


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