Application of Behavioral Modeling Technology in Gearbox Cabinet Optimal Design

Zhong Wang; Ming Rui Chen; Xing Fu

doi:10.4028/www.scientific.net/AMM.58-60.141

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 58-60Application of Behavioral Modeling Technology in...

Application of Behavioral Modeling Technology in Gearbox Cabinet Optimal Design

Abstract:

The behavior modeling technology is introduced. A gearbox cabinet model is analyzed and optimized in this paper with Pro/Engineer behavioral modeling tool, the geometry of gearbox cabinet model is generated and controlled through the intelligent approach of knowledge capture and iterative solution, the optimum design results are obtained, and multi-objective design of the cabinet model is also analyzed in this paper.

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Periodical:

Applied Mechanics and Materials (Volumes 58-60)

Pages:

141-146

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.58-60.141

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Online since:

June 2011

Authors:

Zhong Wang, Ming Rui Chen, Xing Fu

Keywords:

Behavioral Modeling, Computer Aided Design (CAD), Optimal Design

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References

[1] PAN Xiushi, Xiu Tingting. Application of Pro/E Behavioral Modeling Technology in Product Optimization Design [J]. Mechanical Engineering & Automation, 2009, (4), pp.93-95.

Google Scholar

[2] YU Qun, Wu Zhijun. Development of 3D modeling of the lapel shaper based on the behavioral modeling technique [J]. Packaging Engineering, Vol 27 No. 2, 2006, (4), pp.138-140.

Google Scholar

[3] WANG XunJie. Application of Behavioral Modeling Technology in static equilibrium of scroll compressor design [J]. Compressor technology, 2008, (2), pp.46-48.

Google Scholar

[4] YAN Feng. Counterweight Optimization of Revolving Shaft Based on Pro/E Behavioral Modeling [J]. Mechanical Engineer, 2006, (1), pp.76-77.

Google Scholar

[5] HE Xiao-ming, ZHENG Nv-po. Design of Machine Based on Pro/E Behavioral Modeling [J]. Machinery Design and Manufacture, 2005, (5), pp.48-49.

Google Scholar

[6] SHEN Hao, YANG Jun-Shun. Exploring and Practice of Behavioral Modeler in Pro/Engineer Applied to the Optimizing Design [J]. Journal of Shanxi University of Science & Technology, 2003, (12), pp.74-77.

Google Scholar

[7] JIANG Long, SUN Hai-bo. Research of Pro/E Behavioral Modeling Technology [J]. Machine Tool & Hydraulics, 2005 (3).

Google Scholar

[8] ZHANG Peng-cheng, XI Yan-mei, LI Guo-shun, RU Jiang-yan. The Solution of Complex Part's Rectangular Bounding Box Based on Pro/E Behavioral Modeling Technology [J]. Mechanical Engineer, 2009, (8), pp.110-111.

Google Scholar

[9] TANG Jing-jing, DONG Hai-xiang. Application of Pro/Engineer in structural design of packaging container [J]. Packaging Engineering, Vol 26 No. 6, 2005, (12), pp.92-93.

Google Scholar