Structural Analysis and Dynamic Testing of Mini Five-Axis Machine Tools

Chan, T. C.; Wu, Shang-Hong; Lin, You-ze; Chen, Jenn-Yih; Lee, B. Y.

doi:10.1007/978-3-030-20131-9_326

T. C. Chan⁸,
Shang-Hong Wu⁸,
You-ze Lin⁸,
Jenn-Yih Chen⁸ &
…
B. Y. Lee⁸

Part of the book series: Mechanisms and Machine Science ((Mechan. Machine Science,volume 73))

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IFToMM World Congress on Mechanism and Machine Science

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2 Citations

Abstract

The features that define machine tool technology are precision, intelligence, high speed, and customization; the technology should also be composite and systematic. Therefore, for cross-border competition, improving the quality and productivity of machine tools are important.

This paper mainly discusses the structural characteristics of five-axis machine tools and modal testing methods. For the analysis, the individual components are combined and tested to establish the basis for parameter setting. Through a com-parison between the results of a structural analysis of the entire machine and modal testing, the structure of the five-axis machine tool can be improved and optimized, and better dynamic characteristics can be achieved to meet machining precision. Furthermore, intelligent processing is required to achieve the current standards of Industry 4.0.

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References

Li, Yuwen; Wang, Jinsong; Liu, Xin-Jun; Wang, Li-Ping, Dynamic performance comparison and counterweight optimization of two 3-DOF parallel manipulators for a new hybrid machine tool, Mechanism and Machine Theory, v 45, n 11, p 1668-1680, November 2010.
Google Scholar
Wu, Jun; Yu, Guang; Gao, Ying; Wang, Liping, Mechatronics modeling and vibration analysis of a 2-DOF parallel manipulator in a 5-DOF hybrid machine tool, Mechanism and Machine Theory, v 121, p 1339-1351, March 2018.
Google Scholar
T.M. Ericson, R.G. Parker, Planetary gear modal vibration experiments and correlation against lumped-parameter and finite element models, J. Sound Vib. 50(2010) 156–164.
Google Scholar
H. Ohta, E. Hayashi, Vibration of linear guideway type recirculating linear ball bearings, J. Sound Vib. 2000.
Google Scholar
Simon, Vilmos, Influence of machine tool setting parameters on EHD lubrication in hypoid gears, Mechanism and Machine Theory, v 44, n 5, p 923-937, May 2009.
Google Scholar
Whalley, R.; Abdul-Ameer, A.A.; Ebrahimi, K.M. The axes response and resonance identification for a machine tool, Mechanism and Machine Theory, v 46, n 8, p 1171-1192, August 2011.
Google Scholar
Wu, Jun; Wang, Jinsong; Wang, Liping; Li, Tiemin; You, Zheng Study on the stiffness of a 5-DOF hybrid machine tool with actuation redundancy, Mechanism and Machine Theory, v 44, n 2, p 289-305, February 2009.
Google Scholar
Zhou, Yuansheng; Chen, Zezhong C.; Yang, Xujing, An accurate, efficient envelope approach to modeling the geometric deviation of the machined surface for a specific five-axis CNC machine tool, International Journal of Machine Tools and Manufacture, v 95, p 67-77, July 9, 2015.
Google Scholar
Gegg, Brandon C.; Suh, Steve C.S.; Luo, Albert C.J. Modeling and theory of intermittent motions in a machine tool with a friction boundary, Journal of Manufacturing Science and Engineering, Transactions of the ASME, v 132, n 4, p 0410011-0410019, August 2010.
Google Scholar
Faraji Ghanati, Mohammad; Madoliat, Reza New continuous dynamic coupling for three component modeling of tool-holder-spindle structure of machine tools with modified effected tool damping, Journal of Manufacturing Science and Engineering, Transactions of the ASME, v 134, n 2, 2012.
Google Scholar

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Acknowledgements

The authors are greatly indebted to the Ministry of Science and Technology of the R.O.C. for supporting the research through contracts (grant number :MOST 107-2218-E-150 -005 -MY3).

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Authors and Affiliations

Department of Mechanical and Computer-Aided Engineering, National Formosa University, Huwei, Taiwan, R.O.C.
T. C. Chan, Shang-Hong Wu, You-ze Lin, Jenn-Yih Chen & B. Y. Lee

Authors

T. C. Chan
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Shang-Hong Wu
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You-ze Lin
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Jenn-Yih Chen
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B. Y. Lee
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Corresponding author

Correspondence to T. C. Chan .

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Editors and Affiliations

Robotics & Machine Dynamics Group, University of Mining and Metallurgy, Kraków, Poland
Tadeusz Uhl

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Chan, T.C., Wu, SH., Lin, Yz., Chen, JY., Lee, B.Y. (2019). Structural Analysis and Dynamic Testing of Mini Five-Axis Machine Tools. In: Uhl, T. (eds) Advances in Mechanism and Machine Science. IFToMM WC 2019. Mechanisms and Machine Science, vol 73. Springer, Cham. https://doi.org/10.1007/978-3-030-20131-9_326

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DOI: https://doi.org/10.1007/978-3-030-20131-9_326
Published: 14 June 2019
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-20130-2
Online ISBN: 978-3-030-20131-9
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)

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