Effective Material Properties in Multiferroic Composite Materials by a Galerkin BEM

机译：Galerkin BEM的多体复合材料中的有效材料特性

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In this paper, the effective material parameters of magnetoelectroelastic composites are computed on the base of homogenization techniques performed on the representative volume element (RVE). For this purpose, the resulting boundary value problem is formulated as boundary integral equations (BIEs). The Galerkin method is applied for spatial discretization. The required average stresses and strains are obtained directly from the primary values of the BIEs and therefore additional numerical differentiations as necessary in other methods are avoided. Numerical examples will be presented and discussed to show the efficiency of the present boundary element method (BEM) and the influences of the voids on the effective material properties.

机译：本文在代表体积元件（RVE）上执行的均质化技术基础上计算了磁电复合材料的有效材料参数。为此目的，所得到的边界值问题被制定为边界积分方程（Bies）。 Galerkin方法适用于空间离散化。直接从偏心的主要值获得所需的平均应力和菌株，因此避免了根据其他方法的额外数值分化。将呈现和讨论数值示例以显示本边界元素方法（BEM）的效率和空隙对有效材料特性的影响。

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《International Conference on Structural and Physical Aspects of Construction Engineering》|2017年|690 p.|共7页
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Michael Wiinsche; Jan Sladek; Vladimir Sladek;
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中图分类建筑结构;
关键词
multiferroic materials; representative volume elements; effective material properties; symmetric Galerkin BEM;

机译：多体式材料;代表体内元素;有效材料特性;对称Galerkin Bem;

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专利

1. Combining Maxwell's methodology with the BEM for evaluating the two-dimensional effective properties of composite and micro-cracked materials [J] . Mogilevskaya S.G., Crouch S.L. Computational Mechanics: Solids, Fluids, Fracture Transport Phenomena and Variational Methods . 2013,第4期

机译：将Maxwell的方法学与BEM相结合，以评估复合材料和微裂纹材料的二维有效特性
2. Evaluation of Effective Material Parameters of CNT-reinforced Composites via 3D BEM [J] . F. C. Araujo, L. J. Gray Computer Modeling in Engineering & Sciences . 2008,第2a3期

机译：通过3D BEM评估CNT增强复合材料的有效材料参数
3. Overall thermo-magneto-electro-elastic properties of multiferroics composite materials with arbitrary heterogeneities spatial distributions [J] . Koutsawa Yao Composite Structures . 2015,第DECa期

机译：具有任意异质性空间分布的多铁复合材料的整体热磁电弹性性质
4. Effective Material Properties in Multiferroic Composite Materials by a Galerkin BEM [C] . Michael Wiinsche, Jan Sladek, Vladimir Sladek International Conference on Structural and Physical Aspects of Construction Engineering . 2017

机译：Galerkin BEM的多体复合材料中的有效材料特性
5. Numerical characterization of effective mechanical properties of composite/porous materials using pFFT-accelerated BEM. [D] . Zhang, Jun. 2013

机译：使用pFFT加速的BEM对复合材料/多孔材料的有效机械性能进行数值表征。
6. Effective Medium Theory for the Elastic Properties of Composite Materials with Various Percolation Thresholds [O] . Andrei A. Snarskii, Mikhail Shamonin, Pavel Yuskevich 2020

机译：具有不同渗透阈值的复合材料弹性特性的有效介质理论
7. Effect of Off-axis Polarization Treatment on Magnetoelectric Property of Multiferroic Composite Materials [O] . Takeshi WADA, Yasutomo UETSUJI, Kazuyoshi TSUCHIYA 2016

机译：轴轴极化处理对多体复合材料磁电性能的影响

Effective Material Properties in Multiferroic Composite Materials by a Galerkin BEM

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