Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact

This paper describes the effects of different stacking sequences and fiber content ratios on the compression and the compression-after-impact (CAI) behavior of hybrid carbon�basalt (C�B) fiber-reinforced polymer pipes. Hybrid composite pipes composed of eight layers of ± 55°/90°2/± 55°/90°...

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Main Authors: Farhood, N.H., Karuppanan, S., Ya, H.H., Ovinis, M., Sultan, M.T.H.
Format: Article
Institution: Universiti Teknologi Petronas
Record Id / ISBN-0: utp-eprints.23296 /
Published: Begell House Inc. 2020
Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084914940&doi=10.1615%2fCompMechComputApplIntJ.2020029845&partnerID=40&md5=4125836e7af98c0ae5fff762524a94fc
http://eprints.utp.edu.my/23296/
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spelling utp-eprints.232962021-08-19T07:26:00Z Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact Farhood, N.H. Karuppanan, S. Ya, H.H. Ovinis, M. Sultan, M.T.H. This paper describes the effects of different stacking sequences and fiber content ratios on the compression and the compression-after-impact (CAI) behavior of hybrid carbon�basalt (C�B) fiber-reinforced polymer pipes. Hybrid composite pipes composed of eight layers of ± 55°/90°2/± 55°/90°2 were manufactured utilizing the filament winding technique. A series of axial compression tests were carried out on the composite pipes based on ASTM D3410 standard for the nonimpacted and impacted specimens at 100-J impact energy. Residual compressive strength, damage tolerance and failure modes were examined and analyzed for different composite pipe configurations before and after an impact. The results showed that the specimens with fiber content ratio 50:50 C�B fibers exhibited better impact resistance as compared with specimens of fiber content ratio 75:25 C�B fibers, under the same conditions of impact energy. Furthermore, despite carbon fiber sustaining highest compressive force among nonimpacted samples, it exhibited the highest percentage reduction in residual compressive force after impact, at 62%, as such having the worst impact damage tolerance for a given energy level. Specimens with basalt fiber on the outer surface (i.e., Nos. 3 and 6) and alternative fiber specimens (i.e., Nos. 5 and 8), which showed a good response to the impact, sustain high values of the compressive loads for both content ratios. © 2020 by Begell House, Inc. Begell House Inc. 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084914940&doi=10.1615%2fCompMechComputApplIntJ.2020029845&partnerID=40&md5=4125836e7af98c0ae5fff762524a94fc Farhood, N.H. and Karuppanan, S. and Ya, H.H. and Ovinis, M. and Sultan, M.T.H. (2020) Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact. Composites: Mechanics, Computations, Applications, 11 (1). pp. 25-38. http://eprints.utp.edu.my/23296/
institution Universiti Teknologi Petronas
collection UTP Institutional Repository
description This paper describes the effects of different stacking sequences and fiber content ratios on the compression and the compression-after-impact (CAI) behavior of hybrid carbon�basalt (C�B) fiber-reinforced polymer pipes. Hybrid composite pipes composed of eight layers of ± 55°/90°2/± 55°/90°2 were manufactured utilizing the filament winding technique. A series of axial compression tests were carried out on the composite pipes based on ASTM D3410 standard for the nonimpacted and impacted specimens at 100-J impact energy. Residual compressive strength, damage tolerance and failure modes were examined and analyzed for different composite pipe configurations before and after an impact. The results showed that the specimens with fiber content ratio 50:50 C�B fibers exhibited better impact resistance as compared with specimens of fiber content ratio 75:25 C�B fibers, under the same conditions of impact energy. Furthermore, despite carbon fiber sustaining highest compressive force among nonimpacted samples, it exhibited the highest percentage reduction in residual compressive force after impact, at 62%, as such having the worst impact damage tolerance for a given energy level. Specimens with basalt fiber on the outer surface (i.e., Nos. 3 and 6) and alternative fiber specimens (i.e., Nos. 5 and 8), which showed a good response to the impact, sustain high values of the compressive loads for both content ratios. © 2020 by Begell House, Inc.
format Article
author Farhood, N.H.
Karuppanan, S.
Ya, H.H.
Ovinis, M.
Sultan, M.T.H.
spellingShingle Farhood, N.H.
Karuppanan, S.
Ya, H.H.
Ovinis, M.
Sultan, M.T.H.
Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
author_sort Farhood, N.H.
title Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
title_short Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
title_full Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
title_fullStr Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
title_full_unstemmed Experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
title_sort experimental characterization of compression performance of carbon�basalt hybrid filament wound pipes before and after impact
publisher Begell House Inc.
publishDate 2020
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084914940&doi=10.1615%2fCompMechComputApplIntJ.2020029845&partnerID=40&md5=4125836e7af98c0ae5fff762524a94fc
http://eprints.utp.edu.my/23296/
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score 11.62408

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