Finite-element-based nonlinear modal reduction of a rotating beam with large-amplitude motion

Polarit Apiwattanalunggarn, Steven W. Shaw, Christophe Pierre, Dongying Jiang

Research output: Contribution to journalArticlepeer-review

38 Scopus citations

Abstract

A nonlinear one-dimensional finite-element model representing the axial and transverse motions of a cantilevered rotating beam is reduced to a single nonlinear normal mode using invariant manifold techniques. This system is an idealized representation for large-amplitude vibrations of a rotorcraft blade. Although this model is relatively simple, it possesses the essential nonlinear coupling effects between the axial and transverse degrees of freedom. The nature of this coupling leads to the fact that we must use many degrees of freedom, whether based on finite elements or modal expansions, in order to accurately represent the beam vibrations. In this work, the slow modal convergence problem is overcome by nonlinear modal reduction that makes use of invariant manifold based nonlinear modes. This reduction procedure generates a single-degree-of-freedom reduced-order model that systematically accounts for the dynamics of all the linear modes, or finite elements, considered in the original model. The approach is used to study the dynamic characteristics of the finite-element model over a wide range of vibration amplitudes. Using extensive simulations, it is shown that the response of the reduced-order model is nearly identical to a reference system which is based on a large-scale representation of the finite-element model, and to a reduced-order Rayleigh-Ritz model. All of the procedures presented here have been computationally automated. Hence, in this study we demonstrate that it is feasible and practical to interface nonlinear finite-element methods with nonlinear modal reduction.

Original languageEnglish
Pages (from-to)235-263
Number of pages29
JournalJVC/Journal of Vibration and Control
Volume9
Issue number3-4
DOIs
StatePublished - Mar 2003

Keywords

  • Finite element
  • Nonlinear modal reduction
  • Nonlinear normal mode
  • Rotating beam

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