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Acta Mechanica Sinica

Erschienen in:

23.10.2015 | Research Paper

A stabilized complementarity formulation for nonlinear analysis of 3D bimodular materials

verfasst von: L. Zhang, H. W. Zhang, J. Wu, B. Yan

Erschienen in: Acta Mechanica Sinica | Ausgabe 3/2016

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Abstract

Bi-modulus materials with different mechanical responses in tension and compression are often found in civil, composite, and biological engineering. Numerical analysis of bimodular materials is strongly nonlinear and convergence is usually a problem for traditional iterative schemes. This paper aims to develop a stabilized computational method for nonlinear analysis of 3D bimodular materials. Based on the parametric variational principle, a unified constitutive equation of 3D bimodular materials is proposed, which allows the eight principal stress states to be indicated by three parametric variables introduced in the principal stress directions. The original problem is transformed into a standard linear complementarity problem (LCP) by the parametric virtual work principle and a quadratic programming algorithm is developed by solving the LCP with the classic Lemke’s algorithm. Update of elasticity and stiffness matrices is avoided and, thus, the proposed algorithm shows an excellent convergence behavior compared with traditional iterative schemes. Numerical examples show that the proposed method is valid and can accurately analyze mechanical responses of 3D bimodular materials. Also, stability of the algorithm is greatly improved.

Vorheriger Artikel Modal interactions in primary and subharmonic resonant dynamics of imperfect microplates with geometric nonlinearities

Nächster Artikel SIF-based fracture criterion for interface cracks

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Titel: A stabilized complementarity formulation for nonlinear analysis of 3D bimodular materials
verfasst von: L. Zhang
H. W. Zhang
J. Wu
B. Yan
Publikationsdatum: 23.10.2015
Verlag: The Chinese Society of Theoretical and Applied Mechanics; Institute of Mechanics, Chinese Academy of Sciences
Erschienen in: Acta Mechanica Sinica / Ausgabe 3/2016
Print ISSN: 0567-7718
Elektronische ISSN: 1614-3116
DOI: https://doi.org/10.1007/s10409-015-0517-3

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