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A unified framework for corotational flexible multibody system dynamics formulations.
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Corotational formulations play an important role for flexible multibody dynamics systems, because they reflect the nature of many technical systems undergoing arbitrarily large rigid body motions but small deformations within each body.
This paper defines flexible multibody dynamics and corotational formulations in this context. Furthermore, the «ingredients» and workflow of a flexible multibody dynamics simulation are briefly addressed for the reader less familiar with the topic. This part also points to major review papers and textbooks in the field, and embeds the unified formulations in the literature.
The paper's main part presents state-of-the-art corotational flexible multibody dynamics formulations in a systematic and unified way.
In this formulation part, the standard integral-based floating frame of reference formulation with modal reduction and with the conventionally employed lumped mass approximation is presented, and its drawbacks highlighted. Then, the so-called nodal-based, i.e., space-wise discretized, equations of motion are presented for several up-to-date nodal-displacement-based formulations within a unified framework. This approach clearly shows the equivalence of the presented formulations, and highlights the fact that the formulations differ only in the choice of degrees of freedom. Moreover, this contribution also intends to reduce the information and complexity within the scientific literature, since this unified framework allows the derivation of these formulations with significantly less effort..
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About: Andreas Zwölfer
Technical University of Munich, TUM School of Engineering and Design, Department of Mechanical Engineering, Chair of Applied Mechanics, Boltzmannstr. 15, Garching, Germany
About: Johannes Gerstmayr
University of Innsbruck, Department of Mechatronics, Technikerstr.~13, Innsbruck, Austria