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Incorporation of gradient-enhanced microplane damage model into isogeometric analysis

Jike Han (Department of Civil and Environmental Engineering, Tohoku University, Sendai, Japan)
Bo Yin (Institute for Structural Analysis, TU Dresden, Dresden, Germany)
Michael Kaliske (Institute for Structural Analysis, TU Dresden, Dresden, Germany)
Kenjiro Tarada (International Research Institute of Disaster Science, Tohoku University, Sendai, Japan)

Engineering Computations

ISSN: 0264-4401

Article publication date: 4 June 2021

Issue publication date: 17 August 2021

212

Abstract

Purpose

This study aims to develop a new analysis approach devised by incorporating a gradient-enhanced microplane damage model (GeMpDM) into isogeometric analysis (IGA), which shows computational stability and capability in accurately predicting crack propagations in structures with complex geometries.

Design/methodology/approach

For the non-local microplane damage modeling, the maximum modified von-Mises equivalent strain among all microplanes is regularized as a representative quantity. This characterization implies that only one additional governing equation is considered, which improves computational efficiency dramatically. By combined use of GeMpDM and IGA, quasi-static and dynamic numerical analyses are conducted to demonstrate the capability in predicting crack paths of complex geometries in comparison to FEM and experimental results.

Findings

The implicit scheme with the adopted damage model shows favorable numerical stability and the numerical results exhibit appropriate convergence characteristics concerning the mesh size. The damage evolution is successfully controlled by a tension-compression damage factor. Thanks to the advanced geometric design capability of IGA, the details of crack patterns can be predicted reliably, which are somewhat difficult to be acquired by FEM. Additionally, the damage distribution obtained in the dynamic analysis is in close agreement with experimental results.

Originality/value

The paper originally incorporates GeMpDM into IGA. Especially, only one non-local variable is considered besides the displacement field, which improves the computational efficiency and favorable convergence characteristics within the IGA framework. Also, enjoying the geometric design ability of IGA, the proposed analysis method is capable of accurately predicting crack paths reflecting the complex geometries of target structures.

Keywords

Acknowledgements

This work was partially supported by Japan Student Services Organization with Registration Number: HTB1910200308026 and the student grant for Tohoku University Foundation Global Hagi Study Abroad Awards.

Citation

Han, J., Yin, B., Kaliske, M. and Tarada, K. (2021), "Incorporation of gradient-enhanced microplane damage model into isogeometric analysis", Engineering Computations, Vol. 38 No. 8, pp. 3388-3415. https://doi.org/10.1108/EC-08-2020-0455

Publisher

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Emerald Publishing Limited

Copyright © 2021, Emerald Publishing Limited

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