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Precise modelling of HSC machine tool thermal behaviour

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The development of precision machine tools requires modelling, simulation and optimization, especially the accurate modelling of machine tool thermal behaviour aimed at improving the machine tool design. Design/methodology/approach: This paper discusses machine tool design improvement based on thermal behaviour modelling and the complexities involved. A highly accurate thermal model of the HSC machine tool is presented and the necessity of including the whole complex of factors affecting machine tool behaviour and error compensation is highlighted. Modelling problems are illustrated with examples of accurate modelling and simulation of machine tool behaviour, aimed at minimizing thermal disturbances in machining precision. Findings: The precise modelling of HSC machine tools dynamic spindle displacement during a change of rotational speed. Research limitations/implications: The transitional states of spindle speed changes are very complex and difficult to precise recognition. Practical implications: The need of integrated complex modelling of precise HSC machine tools thermal behaviour. Originality/value: All models used for machine tool behaviour simulation are fully original.
Rocznik
Strony
245--252
Opis fizyczny
Bibliogr. 13 poz., rys.
Twórcy
autor
autor
autor
autor
  • Institute of Production Engineering and Automation, Wroclaw University of Technology, ul. Ignacego Lukasiewicza 5, 50-371, Wroclaw, Poland, jerzy.jedrzejewski@pwr.wroc.pl
Bibliografia
  • [1] J. Jędrzejewski, W. Modrzycki, A new approach to modelling thermal behaviour of a machine tool under service conditions, Annals of the CIRP 41/1 (1992) 455-458.
  • [2] J. Jędrzejewski, J. Kaczmarek, Z. Kowal, Z. Winiarski, Numerical optimization of thermal behaviour of machine tools, Annals of the CIRP 39/1 (1990) 379-382.
  • [3] B. Bossmans, J. Tu, A power flow model for high speed motorized spindles - heat generation characterization, Journal of Manufacturing Science and Engineering 123 (2001) 494-505.
  • [4] T. Moriwaki, E. Shamoto, Analysis of thermal deformations of an ultraprecision air spindle system, Annals of the CIRP 47/1 (1998) 315-319.
  • [5] M. Wec, G. Spachtholz, 3- and 4-contact point spindle bearing - a new approach for high speed spindle systems, Annals of the CIRP 52/1 (2003) 311-316.
  • [6] J. Bryan, International status of thermal error research, Annals of the CIRP 39/2 (1990) 645-656.
  • [7] J. Jędrzejewski, M. Grochowski, Modelling head stock motion influence on machine tool thermal behaviour, Journal of Machine Engineering 6/1 (2006) 124-133.
  • [8] J. Jędrzejewski, W. Modrzycki, Intelligent supervision of thermal deformations in high precision machine tools, Proceedings of the 32nd MATADOR Conference, Manchester, 1997, 457-462.
  • [9] J. Jędrzejewski, W. Modrzycki, Numerical analyses and compensation of HSC machine tool thermal displacements. Laser Metrology and Machine Performance, Proceedings of the 7th International Conference and Exhibition of Laser Metrology, Machine Tool, CMM and Robotic Performance, LAMDAMAP, Cranfield, 2005, 268-275.
  • [10] B. Bossmans, J. Tu, A thermal model for high speed motorized spindles. International Journal of Machine Tools Manufacturing 39 (2001) 1345-1366.
  • [11] S.M. Ki, S.K. Lee. Prediction of thermo-elastic behavior in a spindle-bearing system considering bearing surroundings, International Journal of Machine Tools Manufacturing 41 (2001) 809-831.
  • [12] T. Moriwaki, E. Shamot, Analysis of thermal deformations of an ultraprecision air spindle system, Annals of the CIRP 47/1 (1998) 315-319.
  • [13] J. Jędrzejewski, Z. Kowal, W. Kwaśny, W. Modrzycki, Hybrid model of high speed machining centre headstock, Annals of the CIRP 53/1 (2004) 285-288.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS5-0021-0002
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