Effect of toughened polyamide/carbon fiber interlace braid fabric on the mechanical performance of CFRP laminates

IF 1.7 4区材料科学 Q3 MATERIALS SCIENCE, COMPOSITES

Advanced Composites Letters Pub Date : 2020-03-17 DOI:10.1177/0963693520906162

J. Eun, Dong Hyun Kim, Joon‐Seok Lee, Jin-sung Chon

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引用次数: 1

Abstract

Delamination resistance and epoxy matrix brittle fracture have been the main issues in carbon/epoxy composites laminates. Various studies have been reported to complement the brittle fracture of epoxy matrix. Conventional methods of fabricating toughened carbon/epoxy composite laminates were thermo-plastic veils and films interleaving methods, directly toughening the matrix resin and dispersing nanoparticles in the matrix. In this study, the carbon/epoxy composites laminates were manufactured using carbon fiber/polyamide fiber braided fabrics. The chemical interactions between polyamide and epoxy matrix resin were investigated by Fourier transform infrared spectroscopy, which resulted in ring opening of the epoxide group by the amide group. The compression after impact strength and the interlaminar toughness of the carbon/epoxy composite laminate were increased by 31%, and the strain energy release rates were increased by 120% compared to the virgin interface composite. In the case of carbon/epoxy composite laminates interlaced with polyamide fibers, the mechanical properties, such as the tensile strength and fatigue properties, were improved as tensile modulus decreased.

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增韧聚酰胺/碳纤维交织编织织物对CFRP复合材料力学性能的影响

抗剥离性和环氧基脆性断裂一直是碳/环氧复合材料层压板的主要问题。已经报道了各种研究来补充环氧树脂基体的脆性断裂。制备增韧碳/环氧复合材料层压板的传统方法是热塑性面纱和薄膜交错法，直接增韧基体树脂并在基体中分散纳米颗粒。在本研究中，使用碳纤维/聚酰胺纤维编织织物制备了碳/环氧复合材料层压板。用傅立叶变换红外光谱法研究了聚酰胺与环氧树脂之间的化学相互作用，结果表明酰胺基团使环氧基团开环。与原始界面复合材料相比，碳/环氧复合材料层压板的冲击后压缩强度和层间韧性提高了31%，应变能释放率提高了120%。在与聚酰胺纤维交织的碳/环氧复合材料层压板的情况下，随着拉伸模量的降低，机械性能（如拉伸强度和疲劳性能）得到改善。

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

Advanced Composites Letters 工程技术-材料科学：复合

自引率

0.00%

发文量

审稿时长

4.2 months

期刊介绍： Advanced Composites Letters is a peer reviewed, open access journal publishing research which focuses on the field of science and engineering of advanced composite materials or structures.