Exact nonlinear model reduction for a von Kármán beam

Slow-fast decomposition and spectral submanifolds

Journal article (2018)

Authors

S. Jain ETH Zürich

Paolo Tiso ETH Zürich

George Haller ETH Zürich

Affiliation

External organisation

Model order reduction (MOR) Slow-fast decomposition (SFD) Spectral submanifolds (SSM) Von Kármán beam

More Info

expand_more

To reference this document use:

http://resolver.tudelft.nl/uuid:be377d2c-3fee-4f05-8b21-2ad2d537ccc8

Published Date

2018

Language

English

Reuse Rights

Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.

Affiliation

External organisation

Abstract

We apply two recently formulated mathematical techniques, Slow-Fast Decomposition (SFD) and Spectral Submanifold (SSM) reduction, to a von Kármán beam with geometric nonlinearities and viscoelastic damping. SFD identifies a global slow manifold in the full system which attracts solutions at rates faster than typical rates within the manifold. An SSM, the smoothest nonlinear continuation of a linear modal subspace, is then used to further reduce the beam equations within the slow manifold. This two-stage, mathematically exact procedure results in a drastic reduction of the finite-element beam model to a one-degree-of freedom nonlinear oscillator. We also introduce the technique of spectral quotient analysis, which gives the number of modes relevant for reduction as output rather than input to the reduction process.