On low-velocity impact behaviour of composite laminates: Damage investigation and influence of matrix and temperature

IF 11.5 1区 工程技术 Q1 ENGINEERING, AEROSPACE
V. Lopresto , A. Langella , V. Pagliarulo , I. Papa
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引用次数: 7

Abstract

The present manuscript aims to provide an overview of the phenomenon of the low-velocity impact behaviour of composite materials at room and in extreme temperature conditions, by comparing the results obtained on different fibre-matrix combinations and giving a comprehensive review of the impact behaviour and evolution of damage of marine and aerospace composites. The latter was chosen to reduce the environmental impact of plastic wastes. Experimental impact tests up to complete penetration and at different increasing impact energy levels, were carried out by a modular falling weight tower.

The ability of different Non Destructive Techniques NDT in detecting and evaluating barely-visible and invisible impact damage on composite laminates was tested. The aspect related to the damage is, in fact, crucial for these materials because of their inhomogeneity and anisotropy.

The conventional and largely used UltraSound technique, US, was adopted to investigate the delamination caused by low-velocity impact loads. The results were compared with Electronic Speckle Pattern Interferometry, ESPI, as well as with theoretical and semiempirical formulations for the delamination prediction.

复合材料层压板的低速冲击行为:损伤研究及基体和温度的影响
本文旨在通过比较不同纤维基质组合的结果,概述复合材料在室温和极端温度条件下的低速冲击行为现象,并对海洋和航空航天复合材料的冲击行为和损伤演变进行全面回顾。选择后者是为了减少塑料废物对环境的影响。在模块化落重塔上进行了直至完全侵彻和不同冲击能量增加水平的冲击试验。测试了不同无损检测技术对复合材料层合板微可见和不可见冲击损伤的检测和评价能力。事实上,由于这些材料的非均质性和各向异性,与损伤相关的方面是至关重要的。采用常规且广泛使用的超声技术US对低速冲击载荷引起的分层进行了研究。结果与电子散斑干涉测量法(ESPI)以及分层预测的理论和半经验公式进行了比较。
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
Progress in Aerospace Sciences
Progress in Aerospace Sciences 工程技术-工程:宇航
CiteScore
20.20
自引率
3.10%
发文量
41
审稿时长
5 months
期刊介绍: "Progress in Aerospace Sciences" is a prestigious international review journal focusing on research in aerospace sciences and its applications in research organizations, industry, and universities. The journal aims to appeal to a wide range of readers and provide valuable information. The primary content of the journal consists of specially commissioned review articles. These articles serve to collate the latest advancements in the expansive field of aerospace sciences. Unlike other journals, there are no restrictions on the length of papers. Authors are encouraged to furnish specialist readers with a clear and concise summary of recent work, while also providing enough detail for general aerospace readers to stay updated on developments in fields beyond their own expertise.
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