Reduction and coupling of substructures via Gram–Schmidt Interface modes

Reduction and coupling of substructures via Gram–Schmidt Interface modes

The paper presents a novel reduction method in the class of component mode synthesis techniques. The method is here called Gram–Schmidt Interface (GSI), since it is based on the Gram–Schmidt algorithm. The GSI reduction method addresses problems where the Craig–Bampton reduced order model of a subst...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering Vol. 336; pp. 187 - 212
Main Authors: Battiato, G., Firrone, C.M., Berruti, T.M., Epureanu, B.I.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-07-2018
Elsevier BV
Subjects:
Algorithms
Component mode synthesis
Computer science
Coupling
Cyclic symmetry
Degrees of freedom
Dynamic coupling
Forced response
Interface reduction methods
Interfaces
Reduced order models
Reduction
Substructures
Symmetry
Turbomachinery
Dynamic coupling
Cyclic symmetry
Component mode synthesis
Forced response
Interface reduction methods
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Summary:The paper presents a novel reduction method in the class of component mode synthesis techniques. The method is here called Gram–Schmidt Interface (GSI), since it is based on the Gram–Schmidt algorithm. The GSI reduction method addresses problems where the Craig–Bampton reduced order model of a substructure has still a large number of interface degrees of freedom that should be further reduced. Starting from the pre-existing reduction method based on the Characteristic Constraint Modes, the GSI technique goes further, being suitable to reduce a Craig–Bampton model that retains as a master a wide variety of boundary DoFs (interface, active, etc.). The GSI method is here proved to be effective when assembling adjacent substructures having non-compatible meshes at the interfaces. This is possible by performing the interfaces coupling in the modal space of the GSI modes instead in the space of physical degrees of freedom. The technique is here applied to a turbomachinery test case consisting of a blade coupled with a disk’s sector treated in cyclic symmetry conditions. It is also demonstrated how the GSI method appears useful in the reduction of cyclic symmetric structures, representing a valid alternative of the method developed by Tran.
ISSN:0045-7825
1879-2138
DOI:10.1016/j.cma.2018.03.001