基于边界元法的球墨铸铁多尺度均匀化工艺

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Multiscale Modelling Pub Date : 2017-12-28 DOI:10.1142/S1756973717400054

Adrián Alberto Betancur Arroyave, C. Anflor

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引用次数: 0

摘要

在这项工作中，提出了一种使用边界元公式(BEM)来模拟含不规则夹杂物的二维多相微观结构的多尺度均匀化过程。边界元法是一种非常有吸引力的多尺度非均质材料建模工具。该方法不考虑外边界的迭代非均匀性离散化，计算成本低。将该方法用于求解具有代表性的体积元(RVE)和场论介质的弹性问题。主要目标依赖于在均匀和正交各向异性矩阵中发现微非均质材料的有效性质。给出了正交异性材料在平面应力作用下有效性能的计算表达式。通常，数值模型将石墨结核视为GGG-40的空洞，圆度为接近圆形的几何形状。在这个意义上，通过x射线计算得到了一个球状铸铁GGG-40微克。

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Multi-Scaling Homogenization Process for Nodular Cast Iron Using BEM

In this work, a multi-scaling homogenization process using boundary element formulation (BEM) for modeling a two-dimensional multi-phase microstructure containing irregular’s inclusions is presented. The BEM is very attractive for multiscale modeling tools for heterogeneous materials. In this approach, the iterative inhomogeneity discretization of the external boundary is disregarded, leading to a computational low cost. This approach was used for solving the elastic problem of a representative volume element (RVE) and the field theory medium. The main goal relies on finding the effective properties of micro-heterogeneous materials within a homogeneous and orthotropic matrix. Expressions for evaluating the effective properties under Plane Stress (PT) for orthotropic materials were also presented. Generally, the numerical models consider the graphite nodules as voids for GGG-40 and the roundness is close circular geometry. In this sense, a nodular cast iron GGG-40 microgram was obtained by X-ray computed t...

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来源期刊

Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

2.70

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0.00%

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