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Natural fiber reinforced polystyrene composites: Effect of fiber loading, fiber dimensions and surface modification on mechanical properties
Highlights ► Preparation of Agave fiber reinforced polystyrene composites. ► Effect of fiber content, fiber dimensions and surface treatment on the mechanical properties of composites. ► Composites with 20% by weight fiber content exhibited optimum mechanical properties. ► Composites reinforced with MMA grafted fibers exhibited better mechanical strength as compared to raw fibers. ► SEM of fractured surfaces of samples showed better interface in particle reinforced composites.
Abstract Natural fibers have been found to be excellent reinforcing materials for preparing polymer matrix based composites. In the present study both raw and surface modified Agave fiber reinforced polystyrene matrix based composites were prepared in order to explore the effect of reinforcement on the mechanical properties of the matrix. The surface modification of Agave fiber was carried out by graft copolymerization of methyl methacrylate (MMA) onto it in the presence of ceric ammonium nitrate (CAN) as initiator. For preparing these composites different fiber contents of both raw and grafted fibers (10–30% by weight) have been used. It has been found that 20% fiber content gives optimum mechanical properties. The effect of different fiber dimensions (particle, short and long fibers) on the mechanical properties of the composites has also been investigated. It has been found that particle reinforcement gives better mechanical properties than short and long fiber reinforcement. The composites thus prepared have been characterized by Fourier transform infra red (FT-IR) spectroscopy, Scanning electron microscopy (SEM) and TGA/DTA techniques. Further the surface modified fiber reinforced composites have been found to be thermally more stable than that of raw fiber reinforced composites.
Natural fiber reinforced polystyrene composites: Effect of fiber loading, fiber dimensions and surface modification on mechanical properties
Highlights ► Preparation of Agave fiber reinforced polystyrene composites. ► Effect of fiber content, fiber dimensions and surface treatment on the mechanical properties of composites. ► Composites with 20% by weight fiber content exhibited optimum mechanical properties. ► Composites reinforced with MMA grafted fibers exhibited better mechanical strength as compared to raw fibers. ► SEM of fractured surfaces of samples showed better interface in particle reinforced composites.
Abstract Natural fibers have been found to be excellent reinforcing materials for preparing polymer matrix based composites. In the present study both raw and surface modified Agave fiber reinforced polystyrene matrix based composites were prepared in order to explore the effect of reinforcement on the mechanical properties of the matrix. The surface modification of Agave fiber was carried out by graft copolymerization of methyl methacrylate (MMA) onto it in the presence of ceric ammonium nitrate (CAN) as initiator. For preparing these composites different fiber contents of both raw and grafted fibers (10–30% by weight) have been used. It has been found that 20% fiber content gives optimum mechanical properties. The effect of different fiber dimensions (particle, short and long fibers) on the mechanical properties of the composites has also been investigated. It has been found that particle reinforcement gives better mechanical properties than short and long fiber reinforcement. The composites thus prepared have been characterized by Fourier transform infra red (FT-IR) spectroscopy, Scanning electron microscopy (SEM) and TGA/DTA techniques. Further the surface modified fiber reinforced composites have been found to be thermally more stable than that of raw fiber reinforced composites.
Natural fiber reinforced polystyrene composites: Effect of fiber loading, fiber dimensions and surface modification on mechanical properties
Singha, A.S. (Autor:in) / Rana, Raj K. (Autor:in)
01.01.2012
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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