Mechanical PropertiesInvestigation of Unidirectional Woven Carbon Fiber Reinforced Epoxy Matrix Composite

Authors

  • Naznaz Jalal Awla Department of Mechanic and Energy Engineering/ College of Technical Engineering/ Erbil Polytechnic University/ Erbil, Kurdistan Region/ Iraq
  • Younis Khalid Khdir Department of Mechanic and Energy Engineering/ College of Technical Engineering/ Erbil Polytechnic University/ Erbil, Kurdistan Region/ Iraq

DOI:

https://doi.org/10.22153/kej.2023.12.001

Abstract

In this study, the mechanical properties of an epoxy and unidirectional woven carbon with fiberglass composite were experimentally investigated. When preparing the composite samples, American Society for Testing and Materials (ASTM)standard was used. Tensile, impact and flexural test were conducted to investigate the mechanical properties of the new produced epoxy Unidirectional Woven Carbon and Epoxy Fiberglass composites. The outcome showed that the strength of the produced samples increased with the increase in the number of unidirectional woven carbon layers added. Two methods were utilized: (1) woven carbon composite with glass fiber (2) woven carbon composite). The two methods of composite were compared with each other.  The results explained that woven carbon composite had  higher mechanical resistance. While  in impact test the toughness of the sample  increased with adding layers of mixture of Fiber glass with unidirectional woven carbon and epoxy.

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References

Callister, W.D. and D.G. Rethwisch, Materials science and engineering: an introduction. Vol. 9. 2018: Wiley New York.

2. Mohanta, N. and S. Acharya, Fiber surface treatment: Its effect on structural, thermal, and mechanical properties of Luffa cylindrica fiber and its composite. Journal of composite materials, 2016. 50(22): p. 3117-3131.

Liu, H., B.G. Falzon, and J.P.J.I.J.o.M.S. Dear, An experimental and numerical study on the crush behaviour of hybrid unidirectional/woven carbon-fibre reinforced composite laminates. 2019. 164: p. 105160.

Kaka, D., et al. Dynamic mechanical properties of woven carbon fibre reinforced thermoplastic composite. in Proceedings of the 20th International Conference on Composite Materials. 2015. ICCM.

Thirumalai, R., et al., Experimental investigation of mechanical properties of epoxy based composites. Materials Research Express, 2019. 6(7): p. 075309.

Yoo, S.H., et al., Facile method to fabricate carbon fibers from textile-grade polyacrylonitrile fibers based on electron-beam irradiation and its effect on the subsequent thermal stabilization process. Carbon, 2017. 118: p. 106-113.

Bhargav, M. and V.S. Babu, Experimental investigation of fiber orientation effect on mechanical and erosive wear performance of TiO2 filled woven jute fiber based epoxy composites. Materials Today: Proceedings, 2021. 44: p. 2617-2622.

Wang, C., et al., Low-velocity impact response of 3D woven hybrid epoxy composites with carbon and heterocyclic aramid fibres. Polymer Testing, 2021. 101: p. 107314.

Singh, S. and P. SK Jain, An experimental and numerical investigation of mechanical properties of glass fiber reinforced epoxy composites. Advanced Materials Letters, 2013. 4(7): p. 567-572.

Zhou, G., et al., Experimental investigation on mechanical properties of unidirectional and woven fabric glass/epoxy composites under off-axis tensile loading. Polymer Testing, 2017. 58: p. 142-152.

Jagannatha, T. and G. Harish, Mechanical properties of carbon/glass fiber reinforced epoxy hybrid polymer composites. International Journal of Mechanical Engineering and Robotics Research, 2015. 4(2): p. 131-137.

Ekşı, S. and K. Genel, Comparison of mechanical properties of unidirectional and woven carbon, glass and aramid fiber reinforced epoxy composites. composites, 2017. 132(3): p. 879-882.

Hosford, W.F., Mechanical behavior of materials. 2010: Cambridge university press.

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Published

2023-03-01

How to Cite

Mechanical PropertiesInvestigation of Unidirectional Woven Carbon Fiber Reinforced Epoxy Matrix Composite. (2023). Al-Khwarizmi Engineering Journal, 19(1), 24-35. https://doi.org/10.22153/kej.2023.12.001

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