轴向纱编织复合管三点弯曲的数值预测

IF 2.3 4区 材料科学 Q3 MATERIALS SCIENCE, COMPOSITES Applied Composite Materials Pub Date : 2023-12-11 DOI:10.1007/s10443-023-10187-9
Yisheng Liu, Jianhui Li, Zhenyu Wu, Xiaohan Chen
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引用次数: 0

摘要

本文通过模拟预测了轴向纱线对编织复合管渐进弯曲损伤的影响。本文对双轴和三轴编织复合管的横向塌陷进行了 Abaqus 中观有限元模拟。首先,通过微尺度周期单元单元(RUC)模型和实验确定了浸渍纱线和树脂的具体材料参数,并定义了树脂基体和浸渍纱线的材料特性。在模拟过程中,根据延展性和剪切破坏准则模拟了树脂的破坏过程,并根据 Hashin 准则预测了纤维增强体的破坏情况。仿真结果与实验结果具有良好的相关性,表明本文建立的 Abaqus 仿真模型可以进一步解释双轴和三轴编织管的弯曲损伤演变行为,进一步理解编织复合管的损伤机理。同时,轴向纱线的加入大大提高了编织复合管的承载应力和能量吸收能力。最后,比较了两个样品的实验损伤曲线和模拟损伤曲线。
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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Numerical Prediction of Three-Point Bending of Braided Composite Tubes With Axial Yarns

In this paper, the effect of axial yarns on progressive bending damage of braided composite tubes is predicted by simulation. In this paper, Abaqus mesoscopic finite element simulation of lateral collapse of biaxial and triaxial braided composite tubes is carried out. Firstly, the specific material parameters of impregnated yarn and resin were determined by micro-scale periodic unit cell (RUC) model and experiment, and the material properties of resin matrix and impregnated yarn were defined. In the simulation, the resin failure process was simulated according to the ductility and shear damage criteria, and the damage of fiber reinforcement was predicted according to the Hashin criteria. The simulation results show a good correlation with the experimental results, indicating that the Abaqus simulation model established in this paper can further explain the bending damage evolution behavior of biaxial and triaxial braided pipes, and further understand the damage mechanism of braided composite tubes. At the same time, the addition of axial yarn greatly improves the bearing stress and energy absorption capacity of braided composite tube. Finally, the experimental and simulated damage profiles of the two samples were compared.

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来源期刊
Applied Composite Materials
Applied Composite Materials 工程技术-材料科学:复合
CiteScore
4.20
自引率
4.30%
发文量
81
审稿时长
1.6 months
期刊介绍: Applied Composite Materials is an international journal dedicated to the publication of original full-length papers, review articles and short communications of the highest quality that advance the development and application of engineering composite materials. Its articles identify problems that limit the performance and reliability of the composite material and composite part; and propose solutions that lead to innovation in design and the successful exploitation and commercialization of composite materials across the widest spectrum of engineering uses. The main focus is on the quantitative descriptions of material systems and processing routes. Coverage includes management of time-dependent changes in microscopic and macroscopic structure and its exploitation from the material''s conception through to its eventual obsolescence.
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