Study on the Accuracy of Injection Molded Plastic Gear with the Assistance of Supercritical Fluid and a Pressurized Mold

Plastic gears are lighter and less noisy compared to steel gears, and they can be easily shaped into diverse forms by the injection molding process. For this reason, plastic gears are widely used in industry. An extensive amount of research has been conducted on gear materials and methods of shaping...

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Published in	Polymer-plastics technology and engineering Vol. 46; no. 9; pp. 815 - 820
Main Authors	Yoon, Jae D., Cha, Sung W., Chong, Tae H., Ha, Young W.
Format	Journal Article
Language	English
Published	Philadelphia, PA Taylor & Francis Group 03.09.2007 Taylor & Francis
Subjects	Application fields Applied sciences Cellular Exact sciences and technology Forms of application and semi-finished materials Injection molded plastic gear Polymer industry, paints, wood Pressurized mold Supercritical fluid Technology of polymers Viscosity Viscosity Durability Supercritical fluid Shrinkage Experimental study Cellular plastic Property processing relationship Gear Acetal polymer Pressure effect Foaming process Pressurized mold Injection molding Supercritical solvent Injection molded plastic gear Plastics Application
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ISSN	0360-2559 1525-6111
DOI	10.1080/03602550701278046

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Abstract	Plastic gears are lighter and less noisy compared to steel gears, and they can be easily shaped into diverse forms by the injection molding process. For this reason, plastic gears are widely used in industry. An extensive amount of research has been conducted on gear materials and methods of shaping plastic gears for durability and for broader applications. In this article, the focus is on producing a plastic gear shaping method incorporating the injection molding process. The most important factor influencing the durability of a plastic gear is its accuracy. Unlike steel gears, the dimensions of plastic gears are subject to considerable change during formation, and this is due to certain conditions during the injection molding process and to the mold structure. The main causes of size variability here are the high viscosity of plastic and the shrinkage ratio of the resin. In our study, a supercritical fluid was used to reduce the viscosity of the plastic, and a pressurized mold was used to control the shrinkage ratio of the resin. Thus, production of an improved, more highly accurate plastic gear was achieved.
AbstractList	Plastic gears are lighter and less noisy compared to steel gears, and they can be easily shaped into diverse forms by the injection molding process. For this reason, plastic gears are widely used in industry. An extensive amount of research has been conducted on gear materials and methods of shaping plastic gears for durability and for broader applications. In this article, the focus is on producing a plastic gear shaping method incorporating the injection molding process. The most important factor influencing the durability of a plastic gear is its accuracy. Unlike steel gears, the dimensions of plastic gears are subject to considerable change during formation, and this is due to certain conditions during the injection molding process and to the mold structure. The main causes of size variability here are the high viscosity of plastic and the shrinkage ratio of the resin. In our study, a supercritical fluid was used to reduce the viscosity of the plastic, and a pressurized mold was used to control the shrinkage ratio of the resin. Thus, production of an improved, more highly accurate plastic gear was achieved.
Author	Ha, Young W. Cha, Sung W. Chong, Tae H. Yoon, Jae D.
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Keywords	Viscosity Durability Supercritical fluid Shrinkage Experimental study Cellular plastic Property processing relationship Gear Acetal polymer Pressure effect Foaming process Pressurized mold Injection molding Supercritical solvent Injection molded plastic gear Plastics Application
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SubjectTerms	Application fields Applied sciences Cellular Exact sciences and technology Forms of application and semi-finished materials Injection molded plastic gear Polymer industry, paints, wood Pressurized mold Supercritical fluid Technology of polymers Viscosity
Title	Study on the Accuracy of Injection Molded Plastic Gear with the Assistance of Supercritical Fluid and a Pressurized Mold
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