Research Article Open Access

A Drives and Control Integrated Time-Domain Dynamic Analysis and Modeling Approach Applied To Ultra-Precision Machine Tools

Tianjian Li1, Shijin Chen1, Haijun Zhang2 and Kai Cheng3
  • 1 Harbin Institute of Technology, China
  • 2 Research Center of Laser Fusion, China
  • 3 Brunel University, United Kingdom

Abstract

Problem statement: Machines dynamic performance depends not only upon the mechanical structure and components but also the drives and control system. However, the design of the machines is still at the nascent stage by working on an individual machine basis, hence lacks generic scientific approach and design guideline. Approach: Using computer models integrated drives and control system to predict the dynamic performance of ultra-precision machine tools can help manufacturers substantially reduce the lead time and cost of developing new machine. This study proposed a holistic integrated dynamic design and modeling approach, which supports analysis and optimization of the overall machine dynamic performance at the early design stage. The modeling and simulation process on an ultra-precision lathe machine tool is presented using the proposed approach. Results: Model of an ultra precision machine tool is established and used to predict the overall machine performance of the configuration. Deformations of base and fixed sideways in motion are calculated to demonstrate the valid of the method. Conclusion: Excellent accuracy on motion deformation is achieved. The designed and implemented integrated time-domain dynamic analysis and modeling system can predict the static and dynamic performance of ultra-precision machine tools, which can reduce the lead time and the cost of developing new machine.

Current Research in Nanotechnology
Volume 2 No. 1, 2011, 94-99

DOI: https://doi.org/10.3844/ajnsp.2011.94.99

Published On: 29 July 2011

How to Cite: Li, T., Chen, S., Zhang, H. & Cheng, K. (2011). A Drives and Control Integrated Time-Domain Dynamic Analysis and Modeling Approach Applied To Ultra-Precision Machine Tools. Current Research in Nanotechnology, 2(1), 94-99. https://doi.org/10.3844/ajnsp.2011.94.99

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Keywords

  • Integrated modeling
  • ultra-precision
  • time-domain data
  • control integrated
  • Computer Assisted Design (CAD)
  • Computer-Assisted Manufacturing (CAM)
  • Computer Numerical Control (CNC)
  • Computer-Assisted Engineering (CAE)
  • drive systems
  • dynamic performance