冲击载荷下纬纱分布对三维编织复合材料的影响

IF 7.1 1区工程技术 Q1 ENGINEERING, MECHANICAL

International Journal of Mechanical Sciences Pub Date : 2024-10-05 DOI:10.1016/j.ijmecsci.2024.109762

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引用次数: 0

摘要

本文从纬纱分布的角度为三维编织复合材料的抗冲击性提供了新的见解。本文制备了两种纬纱分布对齐和错位的三维通厚角联锁（3D ATT）编织复合材料进行研究。并构建了一个基于自下而上多尺度框架的宏观-微观组合模型，以阐明复合材料在冲击过程中的损伤演变和动态响应机制。结果表明，错位结构具有更优越的抗冲击性能、更分散的损伤分布以及在相似面积密度下更小的永久损伤。精细分散的树脂袋和错位纱线的协同效应有助于延缓损伤演变，从而提高性能。事实证明，多尺度模拟框架是分析三维编织复合材料机械性能的有效工具，其中错位纬纱在应力和损伤分布中起着关键作用。这项研究将有助于三维编织复合材料在抗冲击领域的设计和应用，如鸟类撞击、弹道撞击和爆炸。

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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Influence of weft yarn distribution on 3D woven composites under impact loading

This paper provides new insights into the impact resistance of 3D woven composites from a weft yarn distribution perspective. Two 3D through-thickness angle interlock (3D ATT) woven composites with aligned and misaligned weft yarn distributions were prepared for investigation. And a macro-meso combination model based on a bottom-up multi-scale framework was constructed to elucidate the damage evolution and dynamic response mechanisms of the composites during impact. The results show that the misaligned structure has superior impact resistance, more dispersed damage distribution, and less permanent damage at similar area density. The synergistic effect of finely dispersed resin pockets and misaligned yarns helped to retard the damage evolution, thereby improving the performance. The multi-scale simulation framework proved to be an effective tool for analyzing the mechanical properties of 3D woven composites, with misaligned weft yarns playing a critical role in stress and damage distribution. This research will aid in the design and application of 3D woven composites in impact resistant fields such as bird impact, ballistic impact, and explosions.

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来源期刊

International Journal of Mechanical Sciences 工程技术-工程：机械

CiteScore

12.80

自引率

17.80%

发文量

769

审稿时长

19 days

期刊介绍： The International Journal of Mechanical Sciences (IJMS) serves as a global platform for the publication and dissemination of original research that contributes to a deeper scientific understanding of the fundamental disciplines within mechanical, civil, and material engineering. The primary focus of IJMS is to showcase innovative and ground-breaking work that utilizes analytical and computational modeling techniques, such as Finite Element Method (FEM), Boundary Element Method (BEM), and mesh-free methods, among others. These modeling methods are applied to diverse fields including rigid-body mechanics (e.g., dynamics, vibration, stability), structural mechanics, metal forming, advanced materials (e.g., metals, composites, cellular, smart) behavior and applications, impact mechanics, strain localization, and other nonlinear effects (e.g., large deflections, plasticity, fracture). Additionally, IJMS covers the realms of fluid mechanics (both external and internal flows), tribology, thermodynamics, and materials processing. These subjects collectively form the core of the journal's content. In summary, IJMS provides a prestigious platform for researchers to present their original contributions, shedding light on analytical and computational modeling methods in various areas of mechanical engineering, as well as exploring the behavior and application of advanced materials, fluid mechanics, thermodynamics, and materials processing.