Optimization Design of DVG850 Worktable System Based on ANSYS Workbench

Jiang Miao Yi; Dong Qiang Gao; Fei Zhang; Huan Lin

doi:10.4028/www.scientific.net/AMM.184-185.356

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 184-185Optimization Design of DVG850 Worktable System...

Optimization Design of DVG850 Worktable System Based on ANSYS Workbench

Abstract:

The finite element model of worktable system is created and modal analysis is made with ANSYS Workbench by taking DVG850 high-speed vertical machining center worktable system for example. We make modal analysis of single-screw strength general reinforcement worktable system and get the natural frequency and the vibration mode.Then in order to improve the system's natural frequency, the scheme of dual-screw worktable system is put forward. Also natural frequency and vibration mode is got. Finally, it is proved that the performance of dual-screw worktable system is significantly better than the single-screw one. This provides a reliable reference for further study on dynamic analysis of worktable system.

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Periodical:

Applied Mechanics and Materials (Volumes 184-185)

Pages:

356-359

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.184-185.356

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Online since:

June 2012

Authors:

Jiang Miao Yi, Dong Qiang Gao, Fei Zhang, Huan Lin

Keywords:

ANSYS Workbench , Dual-Screw Transmission, Modal Analysis, Worktable System

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References

[1] FU Zhong-yu, YANG Xiao-jing. Modal Analysis of Leading Screw Based on ANSYS Software. Machinery manufacturing and research, 2004.

Google Scholar

[2] LI Bing, HE Zheng-jia, CHEN Xue-feng. Design, Simulation and optimization of ANSYS Workbench [M]. Tsinghua University Press. 2008.

Google Scholar

[3] LIU Chao-feng, ZHANG Chun, ZHANG Gong-xue. Finite Element Analysis and Optimization of High-Speed Vertical Machining Center Headstock Based on ANSYS [J]. Combination machine tools and automatic processing technology,2010(7):26-28,34.

Google Scholar

[4] LI Ning, LIU Chao-feng, ZHANG Gong-xue, YAN Xiang-yang. Finite Element Analysis and Structure Improvement of High-Speed Vertical Machining Center Headstock [J]. Coal Mine Machinery, 2011(1):180-182.

Google Scholar

[5] HU Yu-jin, WANG Zhang-qi. Analysis and Application of Finite Element [M]. Tsinghua University Press, 2009.

Google Scholar

[6] YANG Shu-kai, ZHU Qi-xi, WU Shi-bin. Study on FEM-Based Topological Optimization Design of Brackets [J]. Automobile technology, 2006(3):16-18.

Google Scholar

[7] YAO Ping, YAO Hong, WANG Xiao-jun, SU Jian-wen. Static and Dynamic Analysis and Optimization of CNC Lathe Bed [J]. Coal Mine Machinery,2009,30(2):208-210.

Google Scholar

[8] GAO Dong-qiang, MAO Zhi-yun, ZHANG Gong-xue, LI Zhong-yan. The Static and dynamic Characteristic Analysis and Structure Improvement of DVG850 Worktable [J]. Machinery Design and Manufacture, 2011(3), 146-147.

Google Scholar