TENSILE PROPERTIES AND MICROSTRUCTURES OF HYBRID UNIDIRECTIONAL COIR/CARBON FIBRE-REINFORCED EPOXY COMPOSITES

  • Chioma Ifeyinwa Madueke Federal University Oye Ekiti
  • Reginald Umunakwe Federal University Oye Ekiti
  • Audu Yemi Federal University Oye Ekiti
DOI: https://doi.org/10.33003/fjs-2025-0906-3475
Keywords: Coir, Carbon, Composite, Tensile properties, Microstructure

Abstract

Bio-fibres from plants as well as fibres from other natural materials have been immensely exploited for use as reinforcements in composites. The aim of this work is to determine the tensile properties of hybrid unidirectional coir/carbon fibre reinforced epoxy composites manufactured via hand layup. Coconut from which coir (coconut fibre) is obtained is abundant in Nigeria. Coir is a lignocellulosic fibre known for its relatively low density and thus savings in energy hence recommendable for light weight applications. Being a natural fibre, it is also eco-friendly. Carbon fibre (T700 Carbon) is a synthetic fibre notable for its high strength. The study seeks to harness the potential of hybridizing coir with carbon as reinforcements to improve the tensile properties of the epoxy composites. This work also advances beyond existing studies on similar composites via the unique stacking sequences. The average tensile strength, Young’s modulus and elongation at break were obtained from three different stacking sequences: Carbon-Carbon-Coir-Coir-Carbon-Carbon, Coir-Carbon-Coir and Carbon Coir Carbon. The stacking sequence that exerted the highest influence on the tensile properties of the manufactured composites was found to be Carbon-Carbon-Coir-Coir-Carbon-Carbon with the tensile strength 63 and 34% higher than those of Coir-Carbon-Coir and Carbon-Coir-Carbon respectively. However the stiffness of Coir-Carbon–Coir was 26% higher than that of Carbon-Coir-Carbon. Therefore, improved mechanical properties of hybrid coir/carbon composites can be achieved using stacking sequence: carbon-carbon-coir-coir-carbon-carbon. The morphology of the coir and carbon and the failure modes of the composites were also carefully investigated.

References

Albuquerque, A.C., Joseph K., Hecker de Carvalho L., and D.Almeida. (2000). Effect of wettability and ageing conditions on the physical and mechanical properties of uniaxially oriented jute-roving-reinforced polyester composites, Composites Science and Technology, 60(6), pp. 833844. Available at: https://doi.org/10.1016/S0266-3538(99)00188-8.

Anand, P.B., Nagaraja, S., Jayaram, N., and Sreenivasa, S.P. (2023). Kenaf Fiber and Hemp Fiber Multi-Walled Carbon Nanotube Filler-Reinforced Epoxy-Based Hybrid Composites for Biomedical Applications: Morphological and Mechanical Characterization, Composites Science.

Babatunde, O. A., Omale, P. E. and Iorver, P. D. (2025). Mechanical And Viscoelastic Properties of Coconut Coir Fibre Reinforced High- Density Polyethylene Composite For Application As Wall Tile, FUDMA Journal of Sciences (FJS, 9(1), pp. 123.

Bahrami, M., Carlos, J., Mehdikhani, M., Butenegro, A., Abenojar, J., and Miguel, . (2023). Hybridization Effect on Interlaminar Bond Strength , Flexural, Polymers .

Balakrishnan, T.S., Thariq, M., Sultan, H., Shahar, F.S., Basri, A.A., Shah, A.U, et al. (2024). Fatigue and Impact Properties of Kenaf / Glass-Reinforced Hybrid Pultruded Composites for Structural Applications, materials.

Costa, U.O., Garcia,C., Teresa, G., Rodrigues, P., Simonassi, N.T., Monteiro, S.N, et al. (2023). Mechanical Properties Optimization of Hybrid Aramid and Jute Fabrics-Reinforced Graphene Nanoplatelets in Functionalized, Polymers.

Elfaleh, I., Abbassi, F., Habibi, M., Ahmad, F., and Guedri M. (2023). A comprehensive review of natural fibers and their composites: An eco- friendly alternative to conventional materials Results in Engineering Review article A comprehensive review of natural fibers and their composites: An eco-friendly alternative to con, Results in Engineering, 19(July), p. 101271. Available at: https://doi.org/10.1016/j.rineng.2023.101271.

Madueke, C.I. (2021). Tensile Properties of As-received and Surface-treated Coir Fibres and Composites A thesis submitted to the University of Birmingham for the degree of.

Madueke, C.I., Agunsoye, O.J., Umunakwe, R., Bolasodun, B., Kolawole, F., Borisade, S.G., and Bello, K.A. (2023). Investigations into the tensile properties and microstructural features of Coconut fibre ( Coir ) reinforced Polylactic acid ( PLA ) biodegradable composites, UNIZIK Journal of Engineering and Applied Sciences, 2(2), pp. 301310.

Madueke, C.I., Umunakwe, R. and Mbah, O.M. (2022). A review on the factors affecting the properties of natural fibre polymer composites, Nigerian Journal of Technology, 41(1), pp. 5564. Available at: https://doi.org/10.4314/njt.v41i1.9.

Maharana, S.M., Pandit, M.K. and Pradhan, A.K. (2022). Effect of Moisture Absorption on Mode II Fracture Behavior of Fumed Silica Reinforced Hybrid Fiber Composite, Journal of Natural Fibers, 00(00), pp. 117. Available at: https://doi.org/10.1080/15440478.2022.2073315.

Prasad, L., Kapri, P., Patel, R.V., Yadav, A., Winczek, J., and Prasad, L. (2023) Physical and Mechanical Behavior of Ramie and Glass Fiber Reinforced Epoxy Resin-Based Hybrid Composites Physical and Mechanical Behavior of Ramie and Glass Fiber, Journal of Natural Fibers, 20(2). Available at: https://doi.org/10.1080/15440478.2023.2234080.

Rait, G.K. (2014) Effect of Surface Treatments on the Mechanical Properties of Coir Fibres and Coir Fibre Reinforced Composites.

Rajesh, D., Lenin, N., Cep, R., and Anand, P. (2022). Experimental Investigation of Bi-Directional Flax with Ramie Fibre-Reinforced Phenol-Formaldehyde Hybrid Composites, Polymers.

Shariff, M., NAM, B Arpitha, G.R., Waleed, A., and Musabah, S. (2023). Feasibility Study on Mechanical Properties of Date Palm Fiber and Epoxy Bio-Composite for Automotive Applications, Tuijin Jishu/Journal of Propulsion Technology, 44(3), pp. 14261435.

Wasti, S., Hubbard, A.M., Clarkson, C.M., Johnston, E., Tekinalp, H., Ozcan, S., et al. (2024). Composites Part C: Open Access Long coir and glass fiber reinforced polypropylene hybrid composites prepared via wet-laid technique, Composites Part C: Open Access, 14(March), p. 100445. Available at: https://doi.org/10.1016/j.jcomc.2024.100445.

Yadav, D., and Singh, G.P. (2023). Investigations on Alkali Treated Modified Fibers of Desert, Current World Environment, 18.

Published
2025-06-30
How to Cite
Madueke, C. I., Umunakwe, R., & Yemi, A. (2025). TENSILE PROPERTIES AND MICROSTRUCTURES OF HYBRID UNIDIRECTIONAL COIR/CARBON FIBRE-REINFORCED EPOXY COMPOSITES. FUDMA JOURNAL OF SCIENCES, 9(6), 251 - 254. https://doi.org/10.33003/fjs-2025-0906-3475
Issue
Vol. 9 No. 6 (2025): FUDMA Journal of Sciences - Vol. 9 No. 6
Section
Research Articles

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