Carbon nanotube protected composite laminate subjected to lightning strike: Interlaminar film distribution investigation

A kind of interlaminar film with carbon nanotubes inserted into polyether ketone with cardo was used for lightning strike protection of composite laminates. The distribution of the interlaminar film was investigated by experimental and numerical methods. Artificial lightning strike tests were conduc...

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Published in:Chinese journal of aeronautics 2021-02, Vol.34 (2), p.620-628
Main Authors: ZHANG, Xianglin, ZHANG, Jikui, CHENG, Xiaoquan, HUANG, Wenjun
Format: Article
Language:English
Subjects:
Carbon nanotube
Composite laminates
Damage
Interlaminar film
Lightning strike protection
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cited_by cdi_FETCH-LOGICAL-c372t-72243d12329568d50ba7cfca695b0b3c4e1fe2b4a0c7bf1b6949dd6567c16e753
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container_title Chinese journal of aeronautics
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creator ZHANG, Xianglin
ZHANG, Jikui
CHENG, Xiaoquan
HUANG, Wenjun
description A kind of interlaminar film with carbon nanotubes inserted into polyether ketone with cardo was used for lightning strike protection of composite laminates. The distribution of the interlaminar film was investigated by experimental and numerical methods. Artificial lightning strike tests were conducted for 12-film carbon nanotube and traditional surface silver coating protected specimens. Then corresponding finite element models (FEMs) were established to analyze the lightning strike effect and validated by the experimental results. Based on the FEMs, the number, distribution and thickness of interlaminar film were investigated in order to obtain equivalent protection effect with the traditional surface silver coating. The results show that only the first two layers were damaged for the surface silver coating protected specimen, while 5 layers were ablated for the 12-film protected specimen. Lightning strike damage area of the laminate protected with 5-film carbon nanotube is almost the same as that of the laminate protected with 12-film carbon nanotube. Compared with traditional surface silver coating protection, one film protection with thickness of 360 μm can make the laminate to obtain equivalent damage depth, 54.8% smaller damage area and 58% less additional weight. And reparability of the laminate is better than that of the laminate protected with 5 interlaminar films.
doi_str_mv 10.1016/j.cja.2020.04.033
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The distribution of the interlaminar film was investigated by experimental and numerical methods. Artificial lightning strike tests were conducted for 12-film carbon nanotube and traditional surface silver coating protected specimens. Then corresponding finite element models (FEMs) were established to analyze the lightning strike effect and validated by the experimental results. Based on the FEMs, the number, distribution and thickness of interlaminar film were investigated in order to obtain equivalent protection effect with the traditional surface silver coating. The results show that only the first two layers were damaged for the surface silver coating protected specimen, while 5 layers were ablated for the 12-film protected specimen. Lightning strike damage area of the laminate protected with 5-film carbon nanotube is almost the same as that of the laminate protected with 12-film carbon nanotube. 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ispartof Chinese journal of aeronautics, 2021-02, Vol.34 (2), p.620-628
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subjects Carbon nanotube
Composite laminates
Damage
Interlaminar film
Lightning strike protection
title Carbon nanotube protected composite laminate subjected to lightning strike: Interlaminar film distribution investigation
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