The Design and Simulation of Main Tool Carrier System in a Condition of Large Vertical Lathe

Ji Jun Zhang; Xian Li Liu; Geng Huang He; Zhong Guang Yu

doi:10.4028/www.scientific.net/AMR.500.447

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 500The Design and Simulation of Main Tool Carrier...

The Design and Simulation of Main Tool Carrier System in a Condition of Large Vertical Lathe

Abstract:

To solve excessivly large deformation and vibration problems in machining large tube section, ensure the machining accuracy and quality of the tube section, the main tool carrier system of a large vertical lathe is designed, by simulation means of finite element, static analysis, dynamic modal analysis and dynamic response analysis are respectively carried on the main tool carrier structures designed. A reasonable overhang length of the tool in the tool carrier system is given through static analysis, dynamic modal analysis show the higher natural frequency of the tool carrier system, the production of cutting resonance can be avoided, the maximum response and corresponding stress conditions of the system under the harmonic loads are given by dynamic response analysis, analysis results show that the sustainable dynamic characteristics of tool carrier system can meet the machining requirements.

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Periodical:

Advanced Materials Research (Volume 500)

Pages:

447-453

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.500.447

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Online since:

April 2012

Authors:

Ji Jun Zhang, Xian Li Liu, Geng Huang He, Zhong Guang Yu

Keywords:

Dynamic Analysis, Main Tool Carrier, Static Analysis, Structural Design

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