Theoretical and Experimental Study on Die Pressure Prediction in Extrusion of Wood-Plastic Composite
This article presents a theoretical and experimental study on the measurement and prediction of die pressure in the extrusion process of wood-plastic composite (WPC). Die pressure is an important parameter in processing of WPCs as it governs the product strength, quality, and the final output rate,...
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| Veröffentlicht in: | Journal of composite materials 2010-06, Vol.44 (11), p.1293-1304 |
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| container_title | Journal of composite materials |
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| creator | Behravesh, A.H. Shakouri, E. Zolfaghari, A. Golzar, M. |
| description | This article presents a theoretical and experimental study on the measurement and prediction of die pressure in the extrusion process of wood-plastic composite (WPC). Die pressure is an important parameter in processing of WPCs as it governs the product strength, quality, and the final output rate, which directly affects the economy of the production. In this research work, a modular die was designed to accommodate for various circular die inserts to produce rod-shaped products having various diameters. Experimentation was carried out to record the pressure for each product. To develop a theoretical formulation for die pressure, two different schemes were considered and modified: non-Newtonian flow and hot extrusion. The comparison of the experimental and theoretical results demonstrated that the experimental values are between the values predicted by the two theoretical schemes. However, it was shown that by applying a correction factor (based on the compaction ratio of die) into the hot extrusion scheme, a theoretical ground can be suggested for pressure prediction in WPC processing. It appeared that the WPC flow in the die resembles more of a plug flow. |
| doi_str_mv | 10.1177/0021998309352703 |
| format | Article |
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Die pressure is an important parameter in processing of WPCs as it governs the product strength, quality, and the final output rate, which directly affects the economy of the production. In this research work, a modular die was designed to accommodate for various circular die inserts to produce rod-shaped products having various diameters. Experimentation was carried out to record the pressure for each product. To develop a theoretical formulation for die pressure, two different schemes were considered and modified: non-Newtonian flow and hot extrusion. The comparison of the experimental and theoretical results demonstrated that the experimental values are between the values predicted by the two theoretical schemes. However, it was shown that by applying a correction factor (based on the compaction ratio of die) into the hot extrusion scheme, a theoretical ground can be suggested for pressure prediction in WPC processing. 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Die pressure is an important parameter in processing of WPCs as it governs the product strength, quality, and the final output rate, which directly affects the economy of the production. In this research work, a modular die was designed to accommodate for various circular die inserts to produce rod-shaped products having various diameters. Experimentation was carried out to record the pressure for each product. To develop a theoretical formulation for die pressure, two different schemes were considered and modified: non-Newtonian flow and hot extrusion. The comparison of the experimental and theoretical results demonstrated that the experimental values are between the values predicted by the two theoretical schemes. However, it was shown that by applying a correction factor (based on the compaction ratio of die) into the hot extrusion scheme, a theoretical ground can be suggested for pressure prediction in WPC processing. 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Die pressure is an important parameter in processing of WPCs as it governs the product strength, quality, and the final output rate, which directly affects the economy of the production. In this research work, a modular die was designed to accommodate for various circular die inserts to produce rod-shaped products having various diameters. Experimentation was carried out to record the pressure for each product. To develop a theoretical formulation for die pressure, two different schemes were considered and modified: non-Newtonian flow and hot extrusion. The comparison of the experimental and theoretical results demonstrated that the experimental values are between the values predicted by the two theoretical schemes. However, it was shown that by applying a correction factor (based on the compaction ratio of die) into the hot extrusion scheme, a theoretical ground can be suggested for pressure prediction in WPC processing. It appeared that the WPC flow in the die resembles more of a plug flow.</abstract><cop>London, England</cop><pub>SAGE Publications</pub><doi>10.1177/0021998309352703</doi><tpages>12</tpages></addata></record> |
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| subjects | Applied sciences Composites Economics Exact sciences and technology Experimentation Extrusion dies Extrusion moulding Forms of application and semi-finished materials Fundamental areas of phenomenology (including applications) Grounds Hot extrusion Inelasticity (thermoplasticity, viscoplasticity...) Inserts Machinery and processing Modular Moulding Physics Plastics Plug flow Polymer industry, paints, wood Solid mechanics Structural and continuum mechanics Technology of polymers |
| title | Theoretical and Experimental Study on Die Pressure Prediction in Extrusion of Wood-Plastic Composite |
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