Strength and failure modes of single-L adhesive joints between aluminium and composites

N.R.E. Domingues , J.C. Trojan , R.D.S.G. Campilho , R.J.C. Carbas , M.D. Banea , L.F.M. da Silva
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引用次数: 5

Abstract

Adhesive bonding is a process of permanent union between the components of a structure, which is used to manufacture complex shape structures, which could not be manufactured in one piece, aiming to provide a structural joint that theoretically should be at least as resistant as the base material. Composite materials reinforced with fibres are becoming increasingly popular in many applications, as a result of a number of competitive advantages over conventional materials. Regarding the manufacture of composite structures, although the currently used techniques reduce to the maximum the connections, these are still necessary due to the typical size of the components and design, technological and logistical limitations. Moreover, it is known that in many high performance structures, it is necessary to join components in composite materials with other light metals such as aluminium, for the purpose of structural optimization. This work aims to experimentally and numerically study single-L adhesive joints between aluminium components and carbon-fibre reinforced composite structures under peeling loads, considering different geometric conditions and adhesives. It was found that the adhesive ductility and aluminium plate thickness are highly relevant parameters to improve the joints strength.

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铝与复合材料间单l型粘结接头的强度与破坏模式
粘接是一种结构部件之间永久结合的过程,用于制造不能一体制造的复杂形状结构,旨在提供一种理论上应至少与基材一样耐磨的结构连接。与传统材料相比,纤维增强的复合材料具有许多竞争优势,因此在许多应用中越来越受欢迎。关于复合结构的制造,尽管目前使用的技术最大限度地减少了连接,但由于组件和设计的典型尺寸,技术和后勤限制,这些仍然是必要的。此外,众所周知,在许多高性能结构中,为了优化结构,有必要将复合材料中的部件与其他轻金属(如铝)连接起来。本工作旨在实验和数值研究剥离载荷下铝构件与碳纤维增强复合材料结构之间的单l粘结接头,考虑不同的几何条件和粘结剂。结果表明,胶粘剂延展性和铝板厚度是提高接头强度的重要参数。
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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