Numerical and experimental study on effect of braiding angle on low-velocity transverse punch response of braided composite tube

材料科学 复合材料 管(容器) 复合数 横截面 破损 变形(气象学) 弯曲 失效模式及影响分析 刚度 断裂(地质) 有限元法 纤维 结构工程 工程类
作者
Yeli Jin,Zhenyu Wu,Zhongxiang Pan,Laihu Peng,Xudong Hu
出处
期刊:International Journal of Damage Mechanics [SAGE Publishing]
卷期号:29 (4): 667-686 被引量:29
标识
DOI:10.1177/1056789519881488
摘要

In this study, the performance of braided composite tubes under low-velocity transverse impact loading at mid-span was investigated using both numerical and experimental methods. Three types of braided composite tubes with different braiding angles (30°, 45°, and 60°) were manufactured. The transverse punch behavior of the tubes was examined on a low-velocity imspact test bench. A meso-level finite element model of the composite tube was also established for identifying the damage initiation and development. The numerical results showed a good correlation with the experimental data. The mechanical response including force–time histories, force–displacement histories, and fracture morphologies was compared between three types of composite tubes for analyzing the influence of braiding angle on the impact response and failure mode. Although suffering from the low bending stiffness depends on fiber volume fraction at initial impact stage, the braided tube with 30° angle engaged more portion to resist impact loading in subsequent process and thus presented higher peak loading than the one with large angle. In addition, there are distinct different failure modes between composite tubes with various braiding angles. Shear yarn breakage underneath the punch was prone to occur in 30° sample because the braiding yarn was closer to the axial direction of tube. In contrast, the resin was deboned severely from the braiding yarn and then the braiding yarn exhibits plastic deformation in 60° sample due to the stress concentration caused by the large braiding angle.
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