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扩展的多尺度有限元法基本原理 被引量:10

Basic theory of extended multiscale finite element method
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摘要 阐述一种适用于非均质材料力学性能分析的扩展的多尺度有限元法(Extended Multiscale Finite Element Method,EMsFEM)的基本原理.该方法的基本思想是利用数值方法构造能反映胞体单元内部材料非均质影响的多尺度基函数,在此基础上求得粗网格层次的等效单元刚度阵,从而在粗网格尺度上对原问题进行求解,很大程度地减少计算量.以该方法进行的具有周期和随机微观结构的材料计算示例,通过与传统有限元法的结果比较,说明这一方法的有效性.EMsFEM的优势在于,能容易地进行降尺度计算,可较准确地求得单元内部的微观应力应变信息,在非均质材料强度和非线性分析中有很大的应用潜力. The basic theory of Extended Muhiscale Finite Element Method (EMsFEM) for mechanical analysis of heterogeneous materials is presented. The underlying idea is to construct numerically the multiscale base functions to capture the small scale heterogeneities of coarse elements in the multiscale finite element analysis. Then the problems are solved on the coarse-grid scale, thus resulting in a reduced number of degrees of freedom in the model. Both problems with periodic and random microstructures are considered and the numerical results verify the validity and accuracy of the developed method by comparing them with the traditional finite element method. An important feature of this work is that the downscaling computation could be performed easily and the micro stress and strain in the macro elements can be obtained simultaneously in the muhiscale computation. Thus, the developed method has great potential for strength and nonlinear analysis of complicated heterogeneous materials.
作者 张洪武 吴敬凯 刘辉 付振东
机构地区 大连理工大学工业装备结构分析国家重点实验室运载工程与力学学部工程力学系
出处 《计算机辅助工程》 2010年第2期3-9,共7页 Computer Aided Engineering
基金 国家自然科学基金(10721062 50679013 90715037 10728205) 长江学者和创新团队发展计划 国家基础性发展规划项目(2010CB832704)
关键词 扩展的多尺度有限元法 基函数 非均质材料 降尺度计算 extended multiscale finite element method base function heterogeneous material downscaling computation
分类号 TB301 [一般工业技术—材料科学与工程]
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参考文献11

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计算机辅助工程
2010年 第2期

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