Tensile Behaviour of Hybrid Composites Between Glass and Short Carbon Fibres

Authors

  • Abdullah M. Aeronautics, Automotive and Ocean Engineering School of Mechanical Engineering, Faculty of Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor
  • Israr H.A. Aeronautics, Automotive and Ocean Engineering School of Mechanical Engineering, Faculty of Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor
  • Wong K.J. Aeronautics, Automotive and Ocean Engineering School of Mechanical Engineering, Faculty of Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor
  • Gan K.W. Faculty of Engineering and the Environment University of Southampton Malaysia Campus (USMC), 79200 Iskandar Puteri, Johor

Keywords:

Eco-hybrid, carbon fibre, tensile, hybrid, recyclefibre

Abstract

This paper presents the tensile behaviours of the hybrid composites consisting of short carbon and synthetic fibres in the form of chopped strand mat glass (CSM) and woven glass. The short carbon fibre used in this study represents the discontinuous carbon fibre tows of the recycled carbon fibre with short fibre tows. All the specimens were fabricated using vacuum infusion process with epoxy resin as the matrix and the tensile test was carried out in accordance withthe ASTM D3039. In total, six different configurations of specimens have been examined comprising the non-hybrid, aligned hybrid and non-aligned hybrid specimens. From the tests, the aligned hybrid specimens show a significant improvement in the tensile properties such as tensile modulus (up to 99%), toughness modulus (more than 10%) and ultimate tensile stress (up to 59.9%) over the non-hybrid composites. The aligned hybrid composites also exhibit a non-linear pseudo-ductile response before failure compared to the catastrophic brittle failure of the non-hybrid and non-aligned hybrid composites.

References

Onishi M., 2012. Toray’s Business Strategy for Carbon Fibre Composite Materials. Retrieved from: http://www.toray.com/ir/pdf/lib/lib_a136.pdf.

[Accessed: 1 September 2019].

AFRA., 2015. Aircraft Fleet Recycling Association. Retrieved from: www.afraassociation.org. [Accessed: 15 August 2019].

Wood K., 2010. Carbon Fibre Reclamation: Going Commercial, High-Performance Composites. Retrieved from: http://www.compositesworld.com/articles/carbon-fibre-reclamation-going-commercial.

[Accessed: 1 September 2019].

Recycled Carbon Fibre Ltd., Converting Composite Waste into High Quality Re-usable Carbon Fibre. Retrieved from: http:///www.recycledcarbonfibre.com.

[Accessed: 15 August 2019].

Yap C.T.M., Israr H.A. Wong K.J. and Yahya M.Y., 2016. Compressive Properties of Hawaiian Gold Timber Bamboo under Different Conditions, Journal of Advanced Research in Applied Mechanics, 25: 10-18.

Yap C.T.M., Wong K.J. and Israr H.A., 2017. Mechanical Properties of Bamboo and Bamboo Composites: A Review, Journal of Advanced Research in Material Science, 35: 7-26.

Faruk O., Bledzki A.K., Fink H.-P. and Sain M., 2012. Biocomposites Reinforced with Natural Fibers: 2000–2010, Prog. Polym. Sci., 37(11): 1552–1596.

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Published

2019-12-31

How to Cite

M., A., H.A., I., K.J., W., & K.W., G. (2019). Tensile Behaviour of Hybrid Composites Between Glass and Short Carbon Fibres. Jurnal Mekanikal, 42(2). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/389

Issue

Vol 42 : December 2019

Section

Mechanical

License

Copyright of articles that appear in Jurnal Mekanikal belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions or any other reproductions of similar nature.

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