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Profile extrusion of wood plastic cellular composites and formulation evaluation using compression moldingIslam, Mohammad Rubyet 01 May 2010 (has links)
Wood Plastic Composites (WPCs) have experienced a healthy growth during the last decade. However, improvement in properties is necessary to increase their utility for structural applications. The toughness of WPCs can be improved by creating a fine cellular structure while reducing the density. Extrusion processing is one of the most economical methods for profile formation. For our study, rectangular profiles were extruded using a twin-screw extrusion system with different grades of HDPE and with varying wood fibre and lubricant contents together with maleated polyethylene (MAPE) coupling agent to investigate their effects on WPC processing and mechanical properties. Work has been done to redesign the extrusion system setup to achieve smoother and stronger profiles. A guiding shaper, submerged in the water, has been designed to guide the material directly through water immediately after exiting the die; instead of passing it through a water cooled vacuum calibrator and then through water. In this way a skin was formed quickly that facilitated the production of smoother profiles. Later on chemical blowing agent (CBA) was used to generate cellular structure in the profile by the same extrusion system. CBA contents die temperatures, drawdown ratios (DDR) and wood fibre contents (WF) were varied for optimization of mechanical properties and morphology. Cell morphology and fibre alignment was characterized by a scanning electron microscope (SEM).
A new compression molding system was developed to help in quick evaluation of different material formulations. This system forces the materials to flow in one direction to achieve higher net alignment of fibres during sample preparation, which is the case during profile extrusion. Operation parameters were optimized and improvements in WPC properties were observed compared to samples prepared by conventional hot press and profile extrusion. / UOIT
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Advancing the technology development for better quality wood plastic composites: process ability studySemeralul, Hamid Osman 01 March 2009 (has links)
Wood Plastic Composites (WPC) have advantages over natural wood such as improved
stiffness, recyclability, and waste minimization. However, issues such as the difficulty of
processing WPC with conventional methods, volatile emission from the wood and the
composites’ lack of strength must be addressed. A system for continuous extrusion of
rectangular profiles of WPC was developed and some critical processing strategies were
identified. The use of a lubricant and a calibrator also improved the profile extrusion of
WPC. In this work, glass was also added to improve WPC’s mechanical strength.
Generally, a glass content of 2.5% appears to improve the properties but further addition
does not have a significant effect. Foaming of WPC, which can enhance their properties,
was investigated through studying the effect of heating time and temperature on void
fraction and cell density. / UOIT
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