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Fabrication, characterization and modelling of laminated composites based on woven jute fibres reinforced epoxy resin
Highlights The jute fibres have been used as reinforcement in epoxy resin. The modelling has been used to predict the mechanical behaviour of the composite. Different staking layer numbers have been used to prepare the laminated composites. Mechanical characterization of the manufactured composite has been carried out.
Abstract The aim of this work is the manufacturing and study of mechanical properties of laminated composite based on natural jute fibres and epoxy resin. The laminated have been prepared by using a compression system according to two jute fibre direction (0° and 45°), and two sample cutting directions (0° and 45°). The different used directions permit to reduce the anisotropic character of manufactured composites. The experimental results show that the mechanical properties increase with increasing of number of layers. The maximal Young’s modulus of laminated with 1, 3, 5 and 7 layers were found respectively at 5264, 5902, 6400 and 5562MPa in case of 0° fibre direction and 0° cutting direction. Moreover, the predicted modulus (Young’s modulus, shear modulus and Poisson coefficient) in each fibre direction were found near to the experimental ones. The difference resides probably in the error in the considered assumptions about the perfect bonding between the fibres and matrix. It was also observed that the use of different staking orientation reduce the anisotropic character of obtained composites.
Fabrication, characterization and modelling of laminated composites based on woven jute fibres reinforced epoxy resin
Highlights The jute fibres have been used as reinforcement in epoxy resin. The modelling has been used to predict the mechanical behaviour of the composite. Different staking layer numbers have been used to prepare the laminated composites. Mechanical characterization of the manufactured composite has been carried out.
Abstract The aim of this work is the manufacturing and study of mechanical properties of laminated composite based on natural jute fibres and epoxy resin. The laminated have been prepared by using a compression system according to two jute fibre direction (0° and 45°), and two sample cutting directions (0° and 45°). The different used directions permit to reduce the anisotropic character of manufactured composites. The experimental results show that the mechanical properties increase with increasing of number of layers. The maximal Young’s modulus of laminated with 1, 3, 5 and 7 layers were found respectively at 5264, 5902, 6400 and 5562MPa in case of 0° fibre direction and 0° cutting direction. Moreover, the predicted modulus (Young’s modulus, shear modulus and Poisson coefficient) in each fibre direction were found near to the experimental ones. The difference resides probably in the error in the considered assumptions about the perfect bonding between the fibres and matrix. It was also observed that the use of different staking orientation reduce the anisotropic character of obtained composites.
Fabrication, characterization and modelling of laminated composites based on woven jute fibres reinforced epoxy resin
Abdellaoui, Hind (author) / Bensalah, Hala (author) / Echaabi, Jamal (author) / Bouhfid, Rachid (author) / Qaiss, Abouelkacem (author)
2014-11-30
10 pages
Article (Journal)
Electronic Resource
English
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