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泡沫铝缠绕CFRP复合结构在轴向压缩下的力学特性

The mechanical characteristics of an aluminum foam winding CFRP composite structure under axial compression.

作者信息

Zhou Hui, Jiang Yao, Yang Guanghui, Xie Suchao

机构信息

School of Logistics, Central South University of Forestry and Technology, Changsha, 410004, China.

School of Traffic & Transportation Engineering, Central South University, Changsha, 410075, China.

出版信息

Heliyon. 2024 May 22;10(11):e31658. doi: 10.1016/j.heliyon.2024.e31658. eCollection 2024 Jun 15.

Abstract

To enhance the energy absorption properties of the energy-absorbing structure, carbon fiber-reinforced polymer (CFRPs) with higher specific energy absorption and porous material aluminum foam with better compressive characteristics were organically combined, and a lighter aluminum foam winding carbon fiber-reinforced polymer structure (CFRP-FA-FW) was designed. Through quasi-static compression testing, the deformation mode and energy absorption properties of CFRP-FA-FW under axial load were examined. The energy absorption and specific energy absorption of CFRP-FA-FW are both increased by 113.55 % and 60.73 %, respectively, compared to the simple composite structure CFRP-FA. Finite element simulation was used for the parametric analysis of the CFRP-FA-FW structure to assess the effects of the relative density of the aluminum foam, the fiber lay-up angle, and the thickness. The results reveal that the change in the relative density of aluminum foam has little impact on the failure deformation mode of CFRP-FA-FW under axial load; the structure has a higher energy absorption capacity and a smoother energy absorption process when the fiber lay-up angle is [0°/90°] and [45°]; the energy absorption capacity of CFRP-FA-FW is significantly improved by increasing the thickness of the carbon fiber lay-up, and the procedure is also more efficient.

摘要

为提高能量吸收结构的能量吸收性能,将具有较高比能量吸收的碳纤维增强聚合物(CFRP)与具有较好压缩特性的多孔材料泡沫铝有机结合,设计了一种更轻质的泡沫铝缠绕碳纤维增强聚合物结构(CFRP-FA-FW)。通过准静态压缩试验,研究了CFRP-FA-FW在轴向载荷下的变形模式和能量吸收性能。与简单复合结构CFRP-FA相比,CFRP-FA-FW的能量吸收和比能量吸收分别提高了113.55%和60.73%。采用有限元模拟对CFRP-FA-FW结构进行参数分析,以评估泡沫铝的相对密度、纤维铺层角度和厚度的影响。结果表明,泡沫铝相对密度的变化对CFRP-FA-FW在轴向载荷下的失效变形模式影响较小;当纤维铺层角度为[0°/90°]和[45°]时,该结构具有较高的能量吸收能力和更平滑的能量吸收过程;增加碳纤维铺层厚度可显著提高CFRP-FA-FW的能量吸收能力,且该方法效率更高。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8938/11140704/14bede5d3742/gr1.jpg

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