An energy decaying scheme for nonlinear dynamics of shells

Carlo L. Bottasso; Olivier A. Bauchau; Jou Young Choi

doi:10.1016/S0045-7825(02)00243-8

An energy decaying scheme for nonlinear dynamics of shells

Carlo L. Bottasso, Olivier A. Bauchau, Jou Young Choi

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

A novel integration scheme for nonlinear dynamics of geometrically exact shells is developed based on the inextensible director assumption. The new algorithm is designed so as to imply the strict decay of the system total mechanical energy at each time step, and consequently unconditional stability is achieved in the nonlinear regime. Furthermore, the scheme features tunable high frequency numerical damping and it is therefore stiffly accurate. The method is tested for a finite element spatial formulation of shells based on mixed interpolations of strain tensorial components and on a two-parameter representation of director rotations. The robustness of the scheme is illustrated with the help of numerical examples.

Original language	English
Pages (from-to)	3099-3121
Number of pages	23
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	191
Issue number	27-28
DOIs	https://doi.org/10.1016/S0045-7825(02)00243-8
State	Published - 26 Apr 2002
Externally published	Yes

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AU - Bottasso, Carlo L.

AU - Bauchau, Olivier A.

AU - Choi, Jou Young

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N2 - A novel integration scheme for nonlinear dynamics of geometrically exact shells is developed based on the inextensible director assumption. The new algorithm is designed so as to imply the strict decay of the system total mechanical energy at each time step, and consequently unconditional stability is achieved in the nonlinear regime. Furthermore, the scheme features tunable high frequency numerical damping and it is therefore stiffly accurate. The method is tested for a finite element spatial formulation of shells based on mixed interpolations of strain tensorial components and on a two-parameter representation of director rotations. The robustness of the scheme is illustrated with the help of numerical examples.

AB - A novel integration scheme for nonlinear dynamics of geometrically exact shells is developed based on the inextensible director assumption. The new algorithm is designed so as to imply the strict decay of the system total mechanical energy at each time step, and consequently unconditional stability is achieved in the nonlinear regime. Furthermore, the scheme features tunable high frequency numerical damping and it is therefore stiffly accurate. The method is tested for a finite element spatial formulation of shells based on mixed interpolations of strain tensorial components and on a two-parameter representation of director rotations. The robustness of the scheme is illustrated with the help of numerical examples.

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SP - 3099

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JO - Computer Methods in Applied Mechanics and Engineering

JF - Computer Methods in Applied Mechanics and Engineering

IS - 27-28

ER -

An energy decaying scheme for nonlinear dynamics of shells

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