Local reinforcement of adhesively bonded square shape aluminum energy absorber with CFRP under quasi-static axial loading: An experimental and numerical study

IF 3.2 3区 材料科学 Q2 ENGINEERING, CHEMICAL
Ali Keshavarzi, Hamed Saeidi Googarchin
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Abstract

This study presents experimental and numerical investigations on the effects of composite ply angle, thickness and number of layers on energy absorption behavior of adhesively bonded carbon fiber-reinforced plastic/aluminum hybrid structure under quasi-static axial loading. This paper aims to use the advantages of adhesive bonding for the local strengthening of a square shaped aluminum energy absorber by composite and as a result achieving desirable energy absorption behavior prior to failure in the connection and without heterogeneous deformation of the structure while reducing the weight of the structure and usage of material and at the same time obtaining favorable results compared to the traditional ways like reinforcing the aluminum structure with composite globally. For this purpose, two models were made and analyzed; one reinforced with four L-shaped composites adhesively bonded using Araldite 2015 to four outside corners of the aluminum square and the other reinforced locally to four corners from within the square. Finite element model was developed for analysis of these hybrid structures. Five different ply angles for composite and multiple number of composite layers varied from 2 to 8 layers under the same and different thicknesses were investigated. Moreover an alpha factor has been determined to measure the importance of local reinforement of the square shape aluminum energy absorber by L-shaped composites. The results showed that compared to aluminum and aluminum with global composite reinforcement energy absorbers, due to the adhesive connection between aluminum and composite in the locally reinforced CFRP/aluminum specimen, the composite had better energy absorption by following the collapse pattern of aluminum and creating a continuous collapse and failure modes. The results indicated good coordination and agreement between the simulated models and the experimental tests. The findings from this experiment demonstrates significant potential for local reinforcement of structures employing adhesives. Utilizing such connections and the ability to strengthen specific areas based on arbitrary geometry and strengthening location could offer substantial opportunities in constructing lightweight structures with high energy absorption across diverse applications.

Abstract Image

准静态轴向载荷下用 CFRP 对粘接方形铝吸能器进行局部加固:实验和数值研究
本研究通过实验和数值研究,探讨了复合材料层角度、厚度和层数对准静态轴向载荷下粘合粘接碳纤维增强塑料/铝混合结构能量吸收行为的影响。本文旨在利用粘合剂粘接的优势,通过复合材料对方形铝质吸能器进行局部加固,从而在连接失效前实现理想的吸能行为,且不会造成结构的异构变形,同时减轻结构重量,减少材料用量,与传统的用复合材料全面加固铝结构的方法相比,取得了良好的效果。为此,我们制作并分析了两个模型:一个模型使用 Araldite 2015 胶粘剂将四个 L 形复合材料加固到铝制正方形的四个外角,另一个模型则从正方形内部局部加固到四个角。为分析这些混合结构开发了有限元模型。研究了五种不同的复合层角度,以及相同和不同厚度下 2 至 8 层的复合层数。此外,还确定了一个α系数,用于衡量 L 型复合材料对方形铝吸能器局部再强化的重要性。结果表明,与铝制吸能器和整体复合材料加固的铝制吸能器相比,由于局部加固的 CFRP/ 铝试样中铝制吸能器和复合材料之间的粘合连接,复合材料具有更好的吸能效果,因为它遵循了铝制吸能器的塌陷模式,并创造了连续的塌陷和破坏模式。结果表明,模拟模型与实验测试之间具有良好的协调性和一致性。实验结果表明,使用粘合剂对结构进行局部加固具有巨大潜力。利用这种连接以及根据任意几何形状和加固位置对特定区域进行加固的能力,可以为建造具有高能量吸收能力的轻质结构提供大量的机会,应用领域广泛。
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来源期刊
International Journal of Adhesion and Adhesives
International Journal of Adhesion and Adhesives 工程技术-材料科学:综合
CiteScore
6.90
自引率
8.80%
发文量
200
审稿时长
8.3 months
期刊介绍: The International Journal of Adhesion and Adhesives draws together the many aspects of the science and technology of adhesive materials, from fundamental research and development work to industrial applications. Subject areas covered include: interfacial interactions, surface chemistry, methods of testing, accumulation of test data on physical and mechanical properties, environmental effects, new adhesive materials, sealants, design of bonded joints, and manufacturing technology.
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