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ã€Abstractã€‘ As an up to date grinder machine, twin-screw grinder has the characters of simple structure, high-powered pulp efficiency, lower cost, less water consumption and lower pollution. A lot of accomplishments have been achieved on twin-screw grinder design. However, traditional design methods are usually used in design of twin-screw grinder.In this thesis, CAD/CAE technologies have been applied in twin-screw grinder design. Firstly, design process was analyzed from the point of system design, and then the system function models and information models were built. Secondly, with the help of PRO/ENGINEER software, the parts including screw element, shaft, machine barrel and bearing block etc, and assembly of mechanism have been accomplished. Also, motion simulation and interference verification of twin screw have been finished. Thirdly, finite element method was applied in the research for the stress distribution of shafts and screws, so their structures were improved.Stress of two kinds of shafts was analyzed. Involute-shaped shaft shows better resistance capability to the pressure than that of rectangle-shaped shaft. Through calculation and analyzing, the best radius of transition angle has been found. With the Finite Element contact analysis method, the stress concentration of twin screws has been investigated. By optimizing the radius of tooth top and root, the stress concentration has been reduced, and the stress distribution has also been ameliorated.Building up computer models of the mechanism, this thesis has simulated the performances of product under actual work circumstance, and acquired optimized results. These shorten the development period, improve design efficiency and quality.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ twin-screw grinderï¼› finite element methodï¼› stress analysisï¼› contact analysisï¼› optimizationï¼›

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