Creating a quasi-linear model of an elastic damper support of the gas turbine engine rotor

A. G. Tereshko; Терешко А. Г.; M. K. Leontiev; Леонтьев М. К.

doi:10.18287/2541-7533-2025-24-1-153-163

Creating a quasi-linear model of an elastic damper support of the gas turbine engine rotor

Authors: Tereshko A.G.¹, Leontiev M.K.²
Affiliations:
1. Lyulka Design Bureau
2. Moscow Aviation Institute
Issue: Vol 24, No 1 (2025)
Pages: 153-163
Section: MECHANICAL ENGINEERING
URL: https://journals.rcsi.science/2542-0453/article/view/311515
DOI: https://doi.org/10.18287/2541-7533-2025-24-1-153-163
ID: 311515

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Abstract

In the presented work, the calculation of critical rotor speeds and determination of vibration characteristics of an advanced gas turbine engine are considered. The engine under study contains a low-pressure compressor with an elastic damper support of a new design that has non-linear characteristics of stiffness and damping coefficients. The problem of creating a model of elastic damper quasi-linear supports of gas turbine engine rotors is solved by adding a quasi-linear element to the dynamic calculation model created by the DYNAMICS A4 software system. The parameters of the element change their values depending on the rotor speed. The task of verifying the results of experimental data is investigated. The presented technique makes it possible to build a quasi-linear model of the rotor support and ensure the coincidence of calculated and experimental data.

Keywords

Aircraft gas turbine engine, rotor dynamics, elastic damper support, model verification, DYNAMICS R4 software system

About the authors

A. G. Tereshko

Lyulka Design Bureau

Author for correspondence.
Email: tereshko.ag@yandex.ru

Chief Strength Testing Specialist, Head of Department

Russian Federation

M. K. Leontiev

Moscow Aviation Institute

Email: lemk@alfatran.com

Doctor of Science (Engineering), Professor of Department 203 of Construction and Design of Engines

Russian Federation

References

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