Low-velocity impact responses and failure of sandwich structure with carbon fiber composite honeycomb cores

IF 5.1 2区工程技术 Q1 ENGINEERING, MECHANICAL

International Journal of Impact Engineering Pub Date : 2024-06-17 DOI:10.1016/j.ijimpeng.2024.105034

Yan Wang , Xingyu Wei , Zhibin Li , Cheng Gong , Pengcheng Xue , Jian Xiong

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Abstract

The objective of this study is to examine the response and failure of honeycomb sandwich structures made of carbon fiber reinforced polymer (CFRP) composites under low-velocity impacts. Four impact tests with varying energies are performed to induce four distinct damage states in the sandwich structure: no discernible damage, damage to the top face sheet and a portion of the core, damage to the lower face sheet, and total penetration. The damage characteristics of the sandwich structures is analyzed by using industrial tomography technology (CT) without destroying them. A refined finite element model is established to further explain the deformation behavior and energy absorption mechanism of the structure, clarifying the effects of the honeycomb core's structural parameters, such as wall thickness, cell side length, and core height. To enhance the precision of simulation outcomes, a model for the onset and progression of damage in plain woven composites is incorporated into the user-defined material subroutine. The experiments and simulations demonstrate a high level of consistency in terms of peak loads, failure mode, and energy absorption.

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带碳纤维复合蜂窝芯的夹层结构的低速冲击响应和破坏

本研究旨在考察碳纤维增强聚合物（CFRP）复合材料制成的蜂窝夹层结构在低速冲击下的响应和破坏情况。研究人员进行了四次不同能量的冲击试验，以诱导夹层结构出现四种不同的损坏状态：无明显损坏、顶部面片和部分芯材损坏、下部面片损坏以及完全穿透。在不破坏夹层结构的情况下，利用工业断层扫描技术（CT）分析了夹层结构的损伤特征。为进一步解释结构的变形行为和能量吸收机制，建立了一个精细的有限元模型，明确了蜂窝芯的结构参数，如壁厚、单元边长和芯高的影响。为了提高模拟结果的精确度，用户自定义材料子程序中加入了平织复合材料的损伤发生和发展模型。实验和模拟结果表明，在峰值载荷、失效模式和能量吸收方面具有高度一致性。

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

International Journal of Impact Engineering 工程技术-工程：机械

CiteScore

8.70

自引率

13.70%

发文量

241

审稿时长

52 days

期刊介绍： The International Journal of Impact Engineering, established in 1983 publishes original research findings related to the response of structures, components and materials subjected to impact, blast and high-rate loading. Areas relevant to the journal encompass the following general topics and those associated with them: -Behaviour and failure of structures and materials under impact and blast loading -Systems for protection and absorption of impact and blast loading -Terminal ballistics -Dynamic behaviour and failure of materials including plasticity and fracture -Stress waves -Structural crashworthiness -High-rate mechanical and forming processes -Impact, blast and high-rate loading/measurement techniques and their applications