Abstract
Natural fiber composites have been widely used for various applications such as automotive components, aircraft components and sports equipment. Among the natural fibers Typha spp have gained considerable attention to replace synthetic fibers due to their unique nature. The untreated and alkali-treated fibers treated in different durations were dried under the sun for 4 h prior to the fabrication of Typha fiber reinforced epoxy composites. The chemical structure and crystallinity index of composites were examined via FT-IR and XRD respectively. The tensile, flexural and impact tests were conducted to investigate the effect of the alkali treated Typha fibers on the epoxy composite. From the microscopy analysis, it was observed that the fracture mechanism of the composite was due to the fiber and matrix debonding, fiber pull out from the matrix, and fiber damage. The tensile, flexural and impact strength of the Typha fiber reinforced epoxy composite were increased after 5% alkaline immersion compared to untreated Typha fiber composite. From these results, it can be concluded that the alkali treatment on Typha fiber could improve the interfacial compatibility between epoxy resin and Typha fiber, which resulted in the better mechanical properties and made the composite more hydrophobic. So far there is no comprehensive report about Typha fiber reinforcing epoxy composite, investigating the effect of the alkali treatment duration on the interfacial compatibility, and their effect on chemical and mechanical of Typha fiber reinforced composite, which plays a vital role to provide the overall mechanical performance to the composite.
Highlights
Since 1970 most fibers used in composites are synthetic fibers such as glass fibers, aramid, and carbon fibers because they have good mechanical properties [1]
The development of several natural fiber composites using hemp, kenaf, coconut, sisal, banana, and pineapple apple fibers have been reported extensively [2,3] Natural fiber composites have been widely used for various applications such as automotive components, aircraft components and sports equipment [4]
The objective of this paper was to investigate the effect of alkali treatment duration on the interfacial compatibility of the composite and their effect on mechanical and physical properties of Typha fiber reinforced composite, which plays a vital role to provide the overall mechanical performance to the composite
Summary
Since 1970 most fibers used in composites are synthetic fibers such as glass fibers, aramid, and carbon fibers because they have good mechanical properties [1]. Synthetic fibers are not eco-friendly due to their non-biodegradable nature there by result in substantial environmental pollution. The development of eco-friendly fiber reinforced composites has been attractive to scientists globally. Natural fibers are thought to be the solution to the problem because natural fibers are biodegradable and renewable. The development of several natural fiber composites using hemp, kenaf, coconut, sisal, banana, and pineapple apple fibers have been reported extensively [2,3] Natural fiber composites have been widely used for various applications such as automotive components, aircraft components and sports equipment [4]. The idea of using natural fiber as a reinforcer in a Polymers 2018, 10, 1316; doi:10.3390/polym10121316 www.mdpi.com/journal/polymers
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