Experimental study on the mechanical properties of three‐dimensional braided composite circular tubes with preembedded licker‐in

Luo, Haibo; Wang, Q. Z.; Yang, Yanchu; He, Xiaohui; Feng, Hui; Ying, Nie; Li, Tao

doi:10.1002/pc.27499

Polymer Composites

2023

DOI: 10.1002/pc.27499

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Experimental study on the mechanical properties of three‐dimensional braided composite circular tubes with preembedded licker‐in

Haibo Luo

Q. Z. Wang

Yanchu Yang

et al.

Abstract: This study investigates the tensile and compression properties of three‐dimensional five‐direction (3D5D) braided composite circular tubes with preembedded titanium alloy licker‐ins. The influence of the braided angle, braided thickness, and braided configuration on the bearing capacity is analyzed, and the microdamage morphology and failure mechanism of the tube structure are examined using scanning electron microscopy. Results show that the 3D5D braided tube has a larger tensile failure load than the 3D full… Show more

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Cited by 3 publications

References 69 publications

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Enhancing damage resistance in tubular triaxial hybrid braided composites: Innovative production and tensile modulus prediction with damage analysis

Ghamkhar,

Johari,

Bodaghi

2024

Polymer Composites

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Braided composite structures, characterized by their inherent brittleness, necessitate precise damage prediction and prevention to ensure structural integrity/reliability. This study introduces an innovative method for enhancing damage resistance in tubular triaxial hybrid braided composites. These composites employ Epoxy resin as the matrix, with polyester serving as the bias yarn, and glass and basalt as the axial yarns, woven at varying braiding angles. Tensile tests reveal a compelling trend: a reduction in the braiding angle correlates with an increase in the failure load, indicative of quasi‐ductile behavior. A model is also derived for predicting tensile elastic modulus, which demonstrates a strong correlation with experimental results. Furthermore, finite element simulations are utilized to analyze damage within the triaxial hybrid braided composite specimens, providing empirical confirmation of progressive damage occurrence. This research offers a promising avenue for designing/manufacturing advanced composite materials with superior damage‐resistance holding immense potential across a spectrum of engineering applications.Highlights The tubular triaxial hybrid braided composites were produced by Epoxy resin as the matrix, with polyester as the bias yarn, and glass and basalt as the axial yarns at different braiding angles. An innovative method was introduced for enhancing damage resistance in tubular triaxial hybrid braided composites. The effect of operating parameters (braiding angle, type of bias yarns, production method) was investigated. Was tried to predict tensile modulus values in tubular triaxial hybrid braided composites by finite element simulation and developed equations. Finite element simulation exhibited excellent performance in the prediction of tensile behavior of structures manufactured by the innovative method.

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Enhancing damage resistance in tubular triaxial hybrid braided composites: Innovative production and tensile modulus prediction with damage analysis

Ghamkhar,

Johari,

Bodaghi

2024

Polymer Composites

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Three‐dimensional braided composites with auxetic behavior in the transverse plane and equal Poisson's ratios along principal directions

Punith,

Pakhare,

Santhosh

et al. 2024

Polymer Composites

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Analytical homogenization technique for obtaining elastic properties of three‐dimensional braided composites is presented. The effect of braiding angle on Poisson's ratios, configurations exhibiting equal Poisson's ratios along principal directions of braided composite representative unit cells (RUCs) and auxetic behavior in the transverse plane of RUCs are investigated. Two unique braided composite RUCs are presented. The exact jamming condition is utilized for obtaining braided composite configurations. The 4‐axes and 5‐axes arrangements are examined for each RUC. Obtained numerical results are compared with results reported in the literature. Equal Poisson's ratios along global orthonormal directions of both RUCs are achievable.Highlights Two RUCs for three‐dimensional braided composites have been identified. Composites with auxetic behavior are possible for a range of braiding angles. Composites with equal Poisson's ratios are possible for a few braiding angles.

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Design, experiment, and finite element analysis of bio-inspired novel 3D woven tubular composites

Wen,

Qian,

Gao

et al. 2025

Composite Structures

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Experimental study on the mechanical properties of three‐dimensional braided composite circular tubes with preembedded licker‐in

Cited by 3 publications

References 69 publications

Enhancing damage resistance in tubular triaxial hybrid braided composites: Innovative production and tensile modulus prediction with damage analysis

Enhancing damage resistance in tubular triaxial hybrid braided composites: Innovative production and tensile modulus prediction with damage analysis

Three‐dimensional braided composites with auxetic behavior in the transverse plane and equal Poisson's ratios along principal directions

Design, experiment, and finite element analysis of bio-inspired novel 3D woven tubular composites

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