Analysis of the Influence of Fiber Orientations in Carbon Fiber Reinforced Composites on their Structural Properties Based on Eddy Current Measurements

Johannes Mersch, T. Gereke, A. Nocke, C. Cherif
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Abstract

Fiber-reinforced plastics (FRP) are a type of composite material consisting of a reinforcing structure and a plastic matrix. When compared to traditional construction materials, FRP has higher strength and stiffness due to the high mechanical properties of reinforcing fibers such as carbon or glass. However, the properties of FRP are dependent on the alignment of fibers within the composite, with deviations leading to reduced strength and stiffness. Eddy current testing is a non-destructive technique used to visualize carbon fibers in the composite and assess the impact of local fiber orientation on the structural properties of FRP. This study aims to understand the influence of local fiber orientation on tensile strength and elastic modulus by producing composites with defined fiber orientations, analyzing them with eddy current testing, and assessing their mechanical properties through tensile tests. The measured fiber orientations are then used to validate a finite element model, in which the actual, measured fiber orientation is applied to the simulation and correlated with the mechanical properties. In contrast to previous published studies measured fiber orientation is used, which as shown in this work, differs from the theoretically implemented fiber orientation.
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基于涡流测量的碳纤维增强复合材料中纤维方向对其结构特性的影响分析
纤维增强塑料(FRP)是一种由增强结构和塑料基体组成的复合材料。与传统建筑材料相比,由于碳或玻璃等增强纤维具有较高的机械性能,玻璃纤维增强塑料具有更高的强度和刚度。然而,玻璃钢的性能取决于复合材料中纤维的排列,如果出现偏差,强度和刚度就会降低。涡流测试是一种非破坏性技术,用于观察复合材料中的碳纤维,并评估局部纤维取向对玻璃钢结构性能的影响。本研究旨在通过生产具有确定纤维取向的复合材料,利用涡流测试对其进行分析,并通过拉伸试验评估其机械性能,从而了解局部纤维取向对拉伸强度和弹性模量的影响。测得的纤维取向随后被用于验证有限元模型,其中实际测得的纤维取向被应用到模拟中,并与机械性能相关联。与以往已发表的研究不同的是,本研究采用的是实测纤维取向,如本研究所示,它与理论上实现的纤维取向不同。
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