Comparison of Reduction Methods for Finite Element Geometrically Nonlinear Beam Structures
Résumé
The aim of this contribution is to present numerical comparisons of model-order reduction
methods for geometrically nonlinear structures in the general framework of finite element (FE)
procedures. Three different methods are compared: the implicit condensation and expansion (ICE),
the quadratic manifold computed from modal derivatives (MD), and the direct normal form (DNF)
procedure, the latter expressing the reduced dynamics in an invariant-based span of the phase
space. The methods are first presented in order to underline their common points and differences,
highlighting in particular that ICE and MD use reduction subspaces that are not invariant. A
simple analytical example is then used in order to analyze how the different treatments of quadratic
nonlinearities by the three methods can affect the predictions. Finally, three beam examples are
used to emphasize the ability of the methods to handle curvature (on a curved beam), 1:1 internal
resonance (on a clamped-clamped beam with two polarizations), and inertia nonlinearity (on a
cantilever beam).
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