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The effect of multi-directional stiffness degradation on the non-linear analysis of composite laminates
- Authors
- Han, Sung-Cheon; Lee, Won-Hong; Park, Weon-Tae
- Issue Date
- Jun-2012
- Publisher
- WALTER DE GRUYTER & CO
- Keywords
- assumed natural strain; element-based Lagrangian shell element; modified first-order shear deformation theory; non-linear analysis; stiffness degradation
- Citation
- SCIENCE AND ENGINEERING OF COMPOSITE MATERIALS, v.19, no.2, pp 127 - 137
- Pages
- 11
- Indexed
- SCIE
SCOPUS
- Journal Title
- SCIENCE AND ENGINEERING OF COMPOSITE MATERIALS
- Volume
- 19
- Number
- 2
- Start Page
- 127
- End Page
- 137
- ISSN
- 0334-181X
2191-0359
- Abstract
- A formulation of element-based Lagrangian 9-node shell element based modified first-order shear deformation theory is improved for non-linear behaviors of composite laminates containing matrix cracking. Using the refined ANS (assumed natural strain) shell elements either show the optimum combination of sampling points with an excellent accuracy or remove the locking phenomenon. The multi-directional stiffness degradation caused by matrix cracking, which was proposed by Duan and Yao, is conducted. Natural coordinate based higher-order transverse shear strains are used in the present shell element. Numerical examples demonstrate that the present element behaves reasonably satisfactorily either for the linear or geometrical non-linear analysis of laminated composite structures. The results of laminated composite shells with matrix cracking may be the benchmark test for the non-linear analysis of damaged composite laminates.
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