On application of a surrogate model to numerical evaluation of effective elastic properties of composites with 3D rotationally symmetric particles

IF 5.7 1区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY International Journal of Engineering Science Pub Date : 2024-07-29 DOI:10.1016/j.ijengsci.2024.104121
Pascal Alexander Happ , Igor Tsukrov , Romana Piat
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引用次数: 0

Abstract

Micromechanical modelling of particulate composites with non-ellipsoidal particle shapes presents significant challenges because analytical approaches based on the fundamental results of Eshelby cannot be used. On the other side, direct numerical evaluations by finite element analysis can involve high computational cost in the case when particle features have small radius of curvature, sharp edges and require extremely fine meshes. This paper proposes substituting the exact particle shape with a surrogate model producing approximately the same contribution to the effective elastic moduli. We illustrate our approach by considering rotationally symmetric 3D particle shapes with the external surface defined by the Laplace's spherical harmonics. In this case, spherical layered surrogates offer good accuracy of approximation, especially when the material parameters of each layer are determined by the particle swarm optimization algorithm. The proposed approach is presented by considering several highly undulated particle shapes and comparing the surrogate model results with direct finite element simulations of the original microstructure.

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代用模型在三维旋转对称颗粒复合材料有效弹性特性数值评估中的应用
由于无法使用基于 Eshelby 基本结果的分析方法,因此对非椭球形颗粒复合材料进行微观力学建模是一项重大挑战。另一方面,在颗粒特征曲率半径小、边缘锋利且需要极细网格的情况下,通过有限元分析进行直接数值评估会涉及高昂的计算成本。本文建议用对有效弹性模量的贡献大致相同的代用模型来替代精确的颗粒形状。我们考虑了旋转对称的三维粒子形状,其外表面由拉普拉斯球面谐波定义,以此说明我们的方法。在这种情况下,球形分层代型具有良好的近似精度,特别是当每层的材料参数由粒子群优化算法确定时。通过考虑几种高度起伏的粒子形状,并将代用模型结果与原始微结构的直接有限元模拟结果进行比较,介绍了所提出的方法。
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来源期刊
International Journal of Engineering Science
International Journal of Engineering Science 工程技术-工程:综合
CiteScore
11.80
自引率
16.70%
发文量
86
审稿时长
45 days
期刊介绍: The International Journal of Engineering Science is not limited to a specific aspect of science and engineering but is instead devoted to a wide range of subfields in the engineering sciences. While it encourages a broad spectrum of contribution in the engineering sciences, its core interest lies in issues concerning material modeling and response. Articles of interdisciplinary nature are particularly welcome. The primary goal of the new editors is to maintain high quality of publications. There will be a commitment to expediting the time taken for the publication of the papers. The articles that are sent for reviews will have names of the authors deleted with a view towards enhancing the objectivity and fairness of the review process. Articles that are devoted to the purely mathematical aspects without a discussion of the physical implications of the results or the consideration of specific examples are discouraged. Articles concerning material science should not be limited merely to a description and recording of observations but should contain theoretical or quantitative discussion of the results.
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