具有斐波那契和随机结构的多层微极性复合材料的有效性能

IF 1.7 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Mathematics and Mechanics of Solids Pub Date : 2023-10-04 DOI:10.1177/10812865231191733

Yoanh Espinosa-Almeyda, David Guinovart-Sanjuán, Reinaldo Rodríguez-Ramos, Héctor Camacho-Montes, Panters Rodríguez-Bermúdez

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引用次数: 0

摘要

本文提出了双尺度渐近均匀化方法(AHM)来描述具有斐波那契和随机结构的多层弹性微极复合材料在界面处完美接触条件下的有效行为。给出了周期单元的局部问题表述[公式:见文]，并报告了相应的有效刚度和扭矩特性。周期细胞的横向横截面[公式:见文本]具有层状结构的特征，其中层的模式遵循两种不同的配置:(a)斐波那契排列，(b)集中于概率二项式函数的随机序列。列举了具有各向同性中心对称成分的多层Cosserat弹性复合材料的非零有效性能。给出了具有中心对称各向同性成分的多层弹性微极复合材料的数值计算结果。随着层数的增加，两种情况下的整体有效行为收敛于周期结构的特定有效值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Effective properties of multi-laminated micropolar composites with Fibonacci and random structures

In this work, the two-scale asymptotic homogenization method (AHM) is developed to describe the effective behavior of multi-laminated elastic micropolar composites with Fibonacci and random structure under perfect contact conditions at the interfaces. The local problem statements over the periodic cell [Formula: see text] are presented, and the corresponding effective stiffness and torque properties are reported. The transversal cross-section of the periodic cell [Formula: see text] is characterized by a laminated structure where the pattern for the layers follows two distinct configurations: (a) a Fibonacci arrangement, and (b) a random sequence focused on the probabilistic binomial function. The non-null effective properties of multi-laminated Cosserat elastic composites with isotropic centro-symmetric constituents are listed. Numerical results for multi-laminated elastic micropolar composites with both types of structures and centro-symmetric isotropic constituents are illustrated and discussed. The overall effective behavior for both cases converges to specific effective values of periodic structures as the number of layers increases.

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来源期刊

Mathematics and Mechanics of Solids 工程技术-材料科学：综合

CiteScore

4.80

自引率

19.20%

发文量

159

审稿时长

1 months

期刊介绍： Mathematics and Mechanics of Solids is an international peer-reviewed journal that publishes the highest quality original innovative research in solid mechanics and materials science. The central aim of MMS is to publish original, well-written and self-contained research that elucidates the mechanical behaviour of solids with particular emphasis on mathematical principles. This journal is a member of the Committee on Publication Ethics (COPE).