Surface matching design of carbon fiber composite honeycomb

IF 5 2区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of The Mechanics and Physics of Solids Pub Date : 2024-10-04 DOI:10.1016/j.jmps.2024.105890

Xingyu Wei , Yihan Jiao , Yan Wang , Chengrui Yan , Jiecai Han , Jian Xiong

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Abstract

Applying carbon fiber composite honeycomb in curved sandwich shells faces challenges due to the saddle-shaped bending surface in hexagon configurations and potential damage during the shape-forming process. This study analyzes the bending deformation of honeycombs by developing large deformation theoretical model for their bending surfaces. The study introduces two novel honeycomb configurations—Boomerang-shaped with a positive Poisson's ratio and Jellyfish-shaped with a negative Poisson's ratio—achieved through curved-wall design and fabrication using a modified carbon fiber composite tape winding molding process. Experimental tests, including bending deformation and shape-forming tests, measure the three-dimensional bending surfaces and mechanical responses of carbon fiber composite honeycombs. Additionally, a developed finite element model analyzes the damage states of various carbon fiber composite honeycombs during shape-forming processes. The results reveal the bending deformation of carbon fiber composite honeycombs and present damage state cloud maps to facilitate the optimal matching of objective sandwich shells with minimal scathe.

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碳纤维复合蜂窝的表面匹配设计

在曲面夹层壳中应用碳纤维复合材料蜂窝面临着挑战，因为六边形结构的弯曲面呈马鞍形，而且在成型过程中可能会损坏。本研究通过建立蜂窝弯曲面大变形理论模型，分析了蜂窝的弯曲变形。研究介绍了两种新型蜂窝构型--具有正泊松比的波美拉尼亚蜂窝和具有负泊松比的水母蜂窝，这两种蜂窝是通过弧形壁设计和使用改进的碳纤维复合材料带缠绕成型工艺制造而成的。实验测试（包括弯曲变形和成型测试）测量了碳纤维复合材料蜂窝的三维弯曲表面和机械响应。此外，开发的有限元模型分析了成型过程中各种碳纤维复合材料蜂窝的损伤状态。研究结果揭示了碳纤维复合材料蜂窝的弯曲变形情况，并给出了损伤状态云图，有助于以最小的刮痕优化匹配客观的夹层外壳。

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来源期刊

Journal of The Mechanics and Physics of Solids 物理-材料科学：综合

CiteScore

9.80

自引率

9.40%

发文量

276

审稿时长

52 days

期刊介绍： The aim of Journal of The Mechanics and Physics of Solids is to publish research of the highest quality and of lasting significance on the mechanics of solids. The scope is broad, from fundamental concepts in mechanics to the analysis of novel phenomena and applications. Solids are interpreted broadly to include both hard and soft materials as well as natural and synthetic structures. The approach can be theoretical, experimental or computational.This research activity sits within engineering science and the allied areas of applied mathematics, materials science, bio-mechanics, applied physics, and geophysics. The Journal was founded in 1952 by Rodney Hill, who was its Editor-in-Chief until 1968. The topics of interest to the Journal evolve with developments in the subject but its basic ethos remains the same: to publish research of the highest quality relating to the mechanics of solids. Thus, emphasis is placed on the development of fundamental concepts of mechanics and novel applications of these concepts based on theoretical, experimental or computational approaches, drawing upon the various branches of engineering science and the allied areas within applied mathematics, materials science, structural engineering, applied physics, and geophysics. The main purpose of the Journal is to foster scientific understanding of the processes of deformation and mechanical failure of all solid materials, both technological and natural, and the connections between these processes and their underlying physical mechanisms. In this sense, the content of the Journal should reflect the current state of the discipline in analysis, experimental observation, and numerical simulation. In the interest of achieving this goal, authors are encouraged to consider the significance of their contributions for the field of mechanics and the implications of their results, in addition to describing the details of their work.