Estimation of local modeling error and goal-oriented adaptive modeling of heterogeneous materials - Part II: a computational environment for adaptive modeling of heterogeneous elastic solids

Kumar S. Vemaganti; J. Tinsley Oden

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Estimation of local modeling error and goal-oriented adaptive modeling of heterogeneous materials - Part II: a computational environment for adaptive modeling of heterogeneous elastic solids

机译：Estimation of local modeling error and goal-oriented adaptive modeling of heterogeneous materials - Part II: a computational environment for adaptive modeling of heterogeneous elastic solids

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This paper addresses a classical and largely unsolved problem: given a structural component constructed of a heterogeneous elastic material that is in equilibrium under the action of applied loads, determine local micromechanical features of its response (e.g., local stresses and displacements in or around phase boundaries or in inclusions) to an arbitrary preset level of accuracy, it being understood that the microstructure is a priori unknown, may be randomly distributed, may exist at multiple spatial scales, and may contain millions, even billions, of microscale components. The approach described in this work begins with a mathematical abstraction of this problem in which the material body is modeled as an elastic solid with highly variable, possibly randomly distributed, elastic properties. Information on the actual character of the microstructure of given material bodies is determined by computerized tomography (CT) imaging. A procedure is given for determining the effective material properties from imaging data, using either deterministic or stochastic methods. An algorithm is then described for determining local quantities of interest, such as average stresses on inclusion boundaries, to arbitrary accuracy relative to the fine-scale model. A new computational environment for implementing such analyses is presented which employs parallel, adaptive, hp finite element methods, CT interfaces, automatic meshing procedures, and, effectively, adaptive modeling schemes. Within the basic premises on which the approach is based, results of any specified accuracy can be obtained, independently of the number of microscale components and constituents. The results of several numerical experiments are presented.

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《Computer Methods in Applied Mechanics and Engineering》 |2001年第47期|6089-6124|共36页
作者
Kumar S. Vemaganti; J. Tinsley Oden;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类自动化基础理论;工程基础科学;
关键词
Heterogeneous materials; Modeling error; Local error estimates;

Estimation of local modeling error and goal-oriented adaptive modeling of heterogeneous materials - Part II: a computational environment for adaptive modeling of heterogeneous elastic solids

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