Effects of carbon nanotube modified adhesive layer on low velocity impact and flexural properties of cork core sandwich structures

I.A. Lopes , F.P. Macedo , A.J. Arteiro , A.L. Reis , P.R. Nóvoa , A.T. Marques
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引用次数: 1

Abstract

The traditional method of manufacturing sandwich structures using a structural adhesive to achieve face-sheets to core bonding maintains widespread use. Most research addressing experimental performance of sandwich structures focuses on core and face-sheet related parameters, and only marginal attention is directed to the mechanical properties of the thin, low content, adhesive layer – it usually suffices that it can provide effective face-sheet/core bonding. The present work studies sandwich structures with a cork agglomerate core and resin infusion processed skins consisting of +/-45° glass fibre fabric reinforced epoxy resin. A polyurethane structural adhesive was used to assemble the structure. The focus of the study was the influence on sandwich performance with respect to a modification of the adhesive with multiwall carbon nanotubes, exploring the possibility of an increase in both shear and adhesion strength of the modified adhesive. The sandwich structure was evaluated with respect to four-point bending and low velocity impact tests. In addition, scanning electron microscopy analysis was used to examine the adhesive layer morphology. The results were analysed to determine how the addition of ca. 0.4 wt.% of carbon nanotubes to the adhesive effectively influenced failure behaviour and damage events in both flexural and impact testing.

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碳纳米管改性粘接层对软木芯夹层结构低速冲击和弯曲性能的影响
传统的制造夹层结构的方法使用结构粘合剂来实现面片与芯的粘合,这种方法仍然广泛使用。大多数关于夹层结构实验性能的研究都集中在芯和面片的相关参数上,而对薄的、低含量的粘接层的力学性能的关注很少——通常它可以提供有效的面片/芯粘合。目前的工作研究了具有软木团块核心和树脂注入处理皮肤的夹层结构,由+/-45°玻璃纤维织物增强环氧树脂组成。采用聚氨酯结构胶进行结构组装。本研究的重点是多壁碳纳米管改性胶粘剂对三明治性能的影响,探索改性胶粘剂的剪切强度和粘附强度增加的可能性。通过四点弯曲和低速冲击试验对夹层结构进行了评价。此外,用扫描电镜分析了胶粘剂层的形貌。对结果进行了分析,以确定在粘合剂中添加约0.4 wt.%的碳纳米管如何有效地影响弯曲和冲击测试中的失效行为和损伤事件。
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