Effects of carbon fiber hybridization on the compressive strength of glass-carbon/epoxy hybrid composite pipes before and after low velocity impact

Farhood, N.H. and Karuppanan, S. and Ya, H.H. and Ovinis, M. (2019) Effects of carbon fiber hybridization on the compressive strength of glass-carbon/epoxy hybrid composite pipes before and after low velocity impact. Key Engineering Materials, 796. pp. 30-37.

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Abstract

In this paper, the effect of carbon fiber hybridization on the compressive strength of glass-carbon/epoxy hybrid filament wound pipes before and after low velocity impact was investigated experimentally. Specifically, the effects of different stacking sequence and fiber content ratio on the compression and compression after impact (CAI) behavior of hybrid glass-carbon fiber reinforced polymer pipes were analyzed. Hybrid composite pipes composed of eight layers of / reinforced with thin HDPE liner were manufactured utilizing filament winding technique. A series of axial compressive tests were carried out on the composite pipes for the non-impacted and impacted specimens under 100 J of impact energy. Residual compressive strength, damage tolerance and failure modes were examined and analyzed for different pipe configurations, before and after the impact. The failure modes of non-impacted and impacted composite pipes under compressive loading were analyzed visually. The results show that, under the same conditions of impact energy, specimens with alternative fibers exhibited better impact resistance regardless of fiber content ratio. Moreover, carbon fiber reinforced epoxy specimens exhibited the worst impact damage tolerance for a given impact energy level although having the highest compressive strength before impact among the samples, with the highest percentage reduction of 62 in residual compressive force after impact. © 2019 Trans Tech Publications, Switzerland

Item Type: Article
Impact Factor: cited By 4
Uncontrolled Keywords: Carbon fiber reinforced plastics; Damage tolerance; Failure modes; Fibers; Filament winding; Glass; Pipe; Reinforcement, Carbon fiber reinforced; Carbon fiber reinforced polymer; Compression after impact; Compressive forces; Hybrid composites; Impact damage tolerance; Impact energy levels; Residual compressive strength, Compressive strength
Depositing User: Ms Sharifah Fahimah Saiyed Yeop
Date Deposited: 19 Aug 2021 07:57
Last Modified: 19 Aug 2021 07:57
URI: http://scholars.utp.edu.my/id/eprint/23518

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