Multifidelity component interface reduction and modal truncation augmentation
Artikel i vetenskaplig tidskrift, 2019

A Hurty‐Craig‐Bampton reduced order component can have unnecessarily large dimension if it contains many interface degrees‐of‐freedom. This is often the case for high spatial resolution models. Furthermore, for such high fidelity models their static constraint modes can be expensive to compute. To overcome these problems, a component mode synthesis method with interface reduction is developed using multifidelity models. The interface reduction basis is computed from the assembled system by coarsening each substructure's mesh, but keeping the model resolution at the interface intact. It is shown that such a mesh coarsening has a small effect on the interface reduction basis quality. Using this reduction basis the dimension of the static constraint modes problem can be reduced and the modes computed at a low cost. When few interface modes can be used without significant loss of accuracy, it is possible to enrich the Hurty‐Craig‐Bampton basis with modal truncation augmentation vectors to increase accuracy at a small extra cost. The accuracy of a procedure that utilises modal truncation augmentation vectors together with the multifidelity interface reduction is investigated. The method's performance and accuracy are illustrated on a planar problem and a more complex problem from industry.


Mladen Gibanica

Chalmers, Mekanik och maritima vetenskaper, Dynamik

Thomas Abrahamsson

Chalmers, Mekanik och maritima vetenskaper, Dynamik

Daniel J. Rixen

Technische Universität München

International Journal for Numerical Methods in Engineering

0029-5981 (ISSN) 1097-0207 (eISSN)

Vol. 120 1 105-124



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