Mechanical and thermal properties of natural fibers reinforced polymer composites: Doum/low density polyethylene

► The use of short Doum fibers as reinforcement in polyethylene low density matrix. ► Basic chemical treatment to the Doum fibers to improve the interfacial adhesion. ► Mechanical and thermal characterization of the manufactured sample composite. Polymer composite materials with vegetable fibers wer...

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Bibliographic Details
Published in:Materials in engineering 2013-01, Vol.43, p.200-205
Main Authors: Arrakhiz, F.Z., El Achaby, M., Malha, M., Bensalah, M.O., Fassi-Fehri, O., Bouhfid, R., Benmoussa, K., Qaiss, A.
Format: Article
Language:English
Subjects:
Adhesion
Density
Extrusion
Fibers
Gain
Injection molding
Mechanical properties
Mechanical testing
Polyethylenes
Polymer matrix composites
Thermal properties
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Summary:► The use of short Doum fibers as reinforcement in polyethylene low density matrix. ► Basic chemical treatment to the Doum fibers to improve the interfacial adhesion. ► Mechanical and thermal characterization of the manufactured sample composite. Polymer composite materials with vegetable fibers were an attractive field for many industries and researchers, however, these materials required the issues of compatibility between the fibers and the polymeric matrix. This work evaluates the thermal and mechanical properties of Doum-fibers reinforcing a low density polyethylene (LDPE) composite to follow the effect of adding fibers into polymer matrix. Doum-fibers were Alkali treated to clean the fiber surface and improve the polymer/fibers adhesion. The Doum-fibers were compounded in LDPE matrix at various contents and extruded as continuous strands. An enhance on mechanical properties of composites was found, a gain of 145% compared to neat polymer at 30wt.% fiber loading in Young’s modulus, a gain of 135% in flexural modulus at 20wt.% fiber loading and a gain of 97% in torsional modulus at 0.1Hz. Thermal properties were evaluated and the results show a slight decrease with increase of added Doum.
ISSN:0261-3069
DOI:10.1016/j.matdes.2012.06.056