Reduced Order Models for Nonlinear Dynamic Analysis With Application to a Fan Blade

Author:

Balmaseda Mikel1,Jacquet-Richardet G.2,Placzek A.3,Tran D.-M.4

Affiliation:

1. DMAS, ONERA, Université Paris-Saclay, Châtillon F-92322, France; Université de Lyon, CNRS INSA Lyon LaMCoS UMR 5259, Villeurbanne F-69621, France

2. Université de Lyon, CNRS INSA Lyon LaMCoS UMR 5259, Villeurbanne F-69621, France

3. DAAA, ONERA, Université Paris-Saclay, Châtillon F-92322, France

4. DMAS, ONERA, Université Paris-Saclay, Châtillon F-92322, France

Abstract

Abstract In this work, reduced order models (ROM) that are independent from the full order finite element models (FOM) considering geometrical nonlinearities are developed and applied to the dynamic study of a fan. The structure is considered to present nonlinear vibrations around the prestressed equilibrium induced by rotation enhancing the classical linearized approach. The reduced nonlinear forces are represented by a polynomial expansion obtained by the stiffness evaluation procedure (STEP) and then corrected by means of a proper orthogonal decomposition (POD) that filters the full order nonlinear forces (StepC ROM). The linear normal modes (LNM) and Craig-Bampton (C-B) type reduced basis are considered here. The latter are parameterized with respect to the rotating velocity. The periodic solutions obtained with the StepC ROM are in good agreement with the solutions of the FOM and are more accurate than the linearized ROM solutions and the STEP ROM. The proposed StepC ROM provides the best compromise between accuracy and time consumption of the ROM.

Publisher

ASME International

Subject

Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering

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