Abstract
Environmentally friendly wood plastic composites (WPC) with biobased high density polyethylene (BioHDPE) as the polymer matrix and hemp, flax and jute short fibers as natural reinforcements, were melt-compounded using twin-screw extrusion and shaped into pieces by injection molding. Polyethylene-graft-maleic anhydride (PE-g-MA) was added at two parts per hundred resin to the WPC during the extrusion process in order to reduce the lack in compatibility between the lignocellulosic fibers and the non-polar polymer matrix. The results revealed a remarkable improvement of the mechanical properties with the combination of natural fibers, along with PE-g-MA, highly improved stiffness and mechanical properties of neat BioHDPE. Particularly, hemp fiber drastically increased the Young’s modulus and impact strength of BioHDPE. Thermal analysis revealed a slight improvement in thermal stability with the addition of the three lignocellulosic fibers, increasing both melting and degradation temperatures. The incorporation of the fibers also increased water absorption due to their lignocellulosic nature, which drastically improved the polarity of the composite. Finally, fire behavior properties were also improved in terms of flame duration, thanks to the ability of the fibers to form char protective barriers that isolate the material from oxygen and volatiles.
Highlights
In recent years, social awareness has undergone a significant rise, due to environmental issues related to waste generation, petroleum shortage and an increasing need for reducing the carbon footprint
The tensile modulus(E), the maximum tensile olymers 2021, 13, x FOR PEER REVIEWstrength and, the elongation at break of biobased high density polyethylene (BioHDPE)-natural fiber composites with hemp, flax and jute fibers, compatibilized with Polyethylene-graft-maleic anhydride (PE-g-maleic anhydride (MA)) can be observed
This work shows that natural short fibers can be effectively used as reinforcing elements in fully biobased high density polyethylene (BioHDPE) parts prepared by conventional industrial processes for thermoplastic materials, as it is the case of injection molding
Summary
Social awareness has undergone a significant rise, due to environmental issues related to waste generation, petroleum shortage and an increasing need for reducing the carbon footprint. High density polyethylene (HDPE) is one of the most globally used commercial plastics, just after polyvinyl chloride (PVC), and polypropylene (PP) in terms of worldwide production and use [9]. It is for this reason that biobased polyethylene (BioHDPE), known as green polyethylene, is a good solution for reducing the problems derived from the use of fossil resources. This green polyolefin is produced by ethylene polymerization, obtained from catalytic dehydration of bioethanol [10]. Injection-molded BioHDPE pieces can be used for fabrication of plastic parts and components, as well as packaging and flexible films [11]
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