Utilization of Municipal Plastic and Wood Waste in Industrial Manufacturing of Wood Plastic Composites

In this study, Wood Plastic Composites (WPCs) were produced from post-consumer bulky wastes of recycled plastic and wood in order to minimize waste, decrease environmental effects of plastics, reserve natural resources, and support circular economy for sustainable production and consumption. Five di...

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Veröffentlicht in:	Waste and biomass valorization 2020-10, Vol.11 (10), p.5419-5430
Hauptverfasser:	Basalp, Dildare, Tihminlioglu, Funda, Sofuoglu, Sait C., Inal, Fikret, Sofuoglu, Aysun
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Schlagworte:	Antioxidants Circular economy Compatibility Composition Engineering Environment Environmental effects Environmental Engineering/Biotechnology Formulations Industrial Pollution Prevention Injection molding Maleic anhydride Manufacturing Manufacturing industry Mechanical properties Morphology Natural resources Original Paper Oxidants Oxidizing agents Plastics Polyethylene Polyethylenes Polymer matrix composites Polymers Polyolefins Polypropylene Recycled materials Renewable and Green Energy Sustainable consumption Sustainable production Tensile strength UV stabilizers Waste Management/Waste Technology Wastes Wood waste
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creator	Basalp, Dildare Tihminlioglu, Funda Sofuoglu, Sait C. Inal, Fikret Sofuoglu, Aysun
description	In this study, Wood Plastic Composites (WPCs) were produced from post-consumer bulky wastes of recycled plastic and wood in order to minimize waste, decrease environmental effects of plastics, reserve natural resources, and support circular economy for sustainable production and consumption. Five different types of polypropylene (PP) or polyethylene (PE) based recycled plastics and wood obtained from urban household bulky wastes were used in the production of recycled WPC composites, r-WPCs. Virgin WPC (v-WPC) and r-WPC compounds were prepared with wood flour (WF) and maleic anhydride grafted compatibilizer (MAPP or MAPE) to evaluate the effect of recycled polymer type and compatibilizer on the mechanical properties. It was found that tensile strength properties of r-WPCs produced from recycled PP (r-PP) were higher than that of the r-WPCs produced from mixed polyolefins and recycled PE. r-WPCs containing anti-oxidants, UV stabilizers, and compatibilizer with different WF compositions were produced from only recycled garden fraction PP (PPFGF) to determine the optimum composition and processing temperature for pilot scale manufacturing of r-WPCs. Based on tensile, impact, flexural, and water sorption properties of r-WPC compounds with different formulations, the optimum conditions of r-WPC compounds for industrial manufacturing process were determined. Surface morphology of fractured surfaces as well as tensile, flexural and density results of r-WPC compounds revealed the enhancement effect of MAPP on interfacial adhesion in r-WPCs. r-WPC products (crates and table/chair legs) based on bulky wastes were produced using an injection molding process at industrial scale by using 30 wt% WF-filled r-WPC compound. This study demonstrated that r-WPC compounds from recycled bulky plastic and wood wastes can be used as a potential raw material in plastic as well as WPC industry, contributing to circular economy. Graphic Abstract
doi_str_mv	10.1007/s12649-020-00986-7
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Based on tensile, impact, flexural, and water sorption properties of r-WPC compounds with different formulations, the optimum conditions of r-WPC compounds for industrial manufacturing process were determined. Surface morphology of fractured surfaces as well as tensile, flexural and density results of r-WPC compounds revealed the enhancement effect of MAPP on interfacial adhesion in r-WPCs. r-WPC products (crates and table/chair legs) based on bulky wastes were produced using an injection molding process at industrial scale by using 30 wt% WF-filled r-WPC compound. This study demonstrated that r-WPC compounds from recycled bulky plastic and wood wastes can be used as a potential raw material in plastic as well as WPC industry, contributing to circular economy. 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Based on tensile, impact, flexural, and water sorption properties of r-WPC compounds with different formulations, the optimum conditions of r-WPC compounds for industrial manufacturing process were determined. Surface morphology of fractured surfaces as well as tensile, flexural and density results of r-WPC compounds revealed the enhancement effect of MAPP on interfacial adhesion in r-WPCs. r-WPC products (crates and table/chair legs) based on bulky wastes were produced using an injection molding process at industrial scale by using 30 wt% WF-filled r-WPC compound. This study demonstrated that r-WPC compounds from recycled bulky plastic and wood wastes can be used as a potential raw material in plastic as well as WPC industry, contributing to circular economy. 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subjects	Antioxidants Circular economy Compatibility Composition Engineering Environment Environmental effects Environmental Engineering/Biotechnology Formulations Industrial Pollution Prevention Injection molding Maleic anhydride Manufacturing Manufacturing industry Mechanical properties Morphology Natural resources Original Paper Oxidants Oxidizing agents Plastics Polyethylene Polyethylenes Polymer matrix composites Polymers Polyolefins Polypropylene Recycled materials Renewable and Green Energy Sustainable consumption Sustainable production Tensile strength UV stabilizers Waste Management/Waste Technology Wastes Wood waste
title	Utilization of Municipal Plastic and Wood Waste in Industrial Manufacturing of Wood Plastic Composites
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