：Multiscale eigenelement method for periodical composites: A review论文

本文主要研究内容

作者（2019）在《Multiscale eigenelement method for periodical composites: A review》一文中研究指出：Based on the eigenvector expansion idea, the Multiscale Eigenelement Method(MEM)was proposed by the author and co-workers. MEM satisfies two equivalent conditions, one condition is the equivalence of strain energy, and the other is the deformation similarity. These two equivalent conditions character the structure-preserving property of a multiscale analysis method. The equivalence of strain energy is necessary for achieving accurate macro behaviors such as lower order frequencies, while the deformation similarity is essential for predicting accurate micro behaviors such as stresses. The MEM has become a powerful multiscale method for the analysis of composite structures because of its high accuracy and efficiency. In this paper, the research advances of MEM are reviewed and all types of eigenelement methods are compared, focusing on superiorities and deficiencies from practical viewpoint. It is concluded that the eigenelement methods with smooth shape functions are more suitable for the analysis of macro behaviors such as lower order frequencies, and the eigenelement methods with piecewise shape functions are suitable for the analysis of both macro and micro behaviors.

Abstract

Based on the eigenvector expansion idea, the Multiscale Eigenelement Method(MEM)was proposed by the author and co-workers. MEM satisfies two equivalent conditions, one condition is the equivalence of strain energy, and the other is the deformation similarity. These two equivalent conditions character the structure-preserving property of a multiscale analysis method. The equivalence of strain energy is necessary for achieving accurate macro behaviors such as lower order frequencies, while the deformation similarity is essential for predicting accurate micro behaviors such as stresses. The MEM has become a powerful multiscale method for the analysis of composite structures because of its high accuracy and efficiency. In this paper, the research advances of MEM are reviewed and all types of eigenelement methods are compared, focusing on superiorities and deficiencies from practical viewpoint. It is concluded that the eigenelement methods with smooth shape functions are more suitable for the analysis of macro behaviors such as lower order frequencies, and the eigenelement methods with piecewise shape functions are suitable for the analysis of both macro and micro behaviors.

论文参考文献

[1].Fabrication and near-infrared optical responses of 2D periodical Au/ITO nanocomposite arrays[J]. ZHENGYUAN BAI,GUIJU TAO,YUANXIN LI,JIN HE,KANGPENG WANG,GAOZHONG WANG,XIONGWEI JIANG,JUN WANG,WERNER BLAU,LONG ZHANG. Photonics Research.2017(04)

[2].TIME-TEMPERATURE-STRESS EQUIVALENCE AND ITS APPLICATION TO NONLINEAR VISCOELASTIC MATERIALS[J]. Luo Wenbo~(1,2) Yang Ting-Qing~1 An Qunli~1(1 Department of Mechanics,Huazhong University of Science and Technology,Wuhan 430074,China)(2 Institute of Fundamental Mechanics and Material Engineering,Xiangtan University,Xiangton 411105,China). Acta Mechanica Solida Sinica.2001(03)

[3].SELF-SIMILAR CRACK EXPANSION METHOD FOR THE STRESS INTENSITY FACTOR ANALYSIS[J]. Yonglin Xu;Ted Belytschko, Dept. of Civil Engineering, Northwestern University, Evanston, IL 60208, U. S. A. Acta Mechanica Solida Sinica.1996(02)

[4].Proportional Limit Stress and Residual Thermal Stress of 3D SiC/SiC Composite[J]. Shanhua Liu,Litong Zhang,Xiaowei Yin,Yongsheng Liu,Laifei Cheng. Journal of Materials Science & Technology.2014(10)

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：Multiscale eigenelement method for periodical composites: A review论文

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Abstract

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