Modelling woven composites with shell elements: An application of second-order computational homogenisation

IF 4.4 2区工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers & Structures Pub Date : 2025-03-13 DOI:10.1016/j.compstruc.2025.107736

Athira Anil Kumar, Aewis K.W. Hii, Stephen R. Hallett, Bassam El Said

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Abstract

3D woven composites are gaining traction in the aerospace industry due to their enhanced mechanical properties. However, their complex internal architectures pose challenges in understanding their behaviour across different length scales. Computational homogenisation techniques emerge as a practical alternative to high-fidelity modelling, facilitating analysis on the structural scale. While the classical first-order homogenisation framework is well-established, it has limitations that are addressed by higher-order approaches such as second-order homogenisation. These advanced approaches incorporate strain gradients and higher-order deformation modes into fine-scale models, proving effective in bending-dominated problems. The current study implements a thick shell-based second-order homogenisation framework to multi-layer 2D and 3D woven composites. It underscores the framework’s proficiency in providing accurate constitutive relations for bending components. Through simulation of ASTM standardised tests, comparative studies are conducted for first and second-order homogenisation against high-fidelity models, which not only demonstrates their effectiveness but also identifies their limitations.

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用壳单元模拟编织复合材料：二阶计算均匀化的应用

3D编织复合材料由于其增强的机械性能，在航空航天工业中越来越受到关注。然而，它们复杂的内部结构给理解它们在不同长度尺度上的行为带来了挑战。计算均质化技术作为高保真建模的实用替代方案出现，促进了结构尺度上的分析。虽然经典的一阶均质框架是完善的，但它有局限性，可以通过高阶方法如二阶均质来解决。这些先进的方法将应变梯度和高阶变形模式纳入到精细尺度模型中，证明了在弯曲主导问题中的有效性。目前的研究实现了一种厚壳基的二阶均质框架，用于多层二维和三维编织复合材料。它强调了框架在为弯曲构件提供准确的本构关系方面的熟练程度。通过模拟ASTM标准化试验，对高保真度模型进行了一阶和二阶均质化的比较研究，不仅证明了它们的有效性，也指出了它们的局限性。

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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来源期刊

Computers & Structures 工程技术-工程：土木

CiteScore

8.80

自引率

6.40%

发文量

122

审稿时长

33 days

期刊介绍： Computers & Structures publishes advances in the development and use of computational methods for the solution of problems in engineering and the sciences. The range of appropriate contributions is wide, and includes papers on establishing appropriate mathematical models and their numerical solution in all areas of mechanics. The journal also includes articles that present a substantial review of a field in the topics of the journal.