PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Development of the modelling and numerical simulation of the thermal properties of machine tools

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper highlights the need for the holistic modelling of the thermal properties of machine tools to provide a good basis for the effective aiding of machine tool design and optimization. A brief history of this modelling and the idea of accurate modelling and its experimental verification are presented. Examples of the holistic modelling of drive units both isolated from the machine tool and interconnected with its structure are provided.
Rocznik
Strony
5--20
Opis fizyczny
Bibliogr. 31 poz., rys.
Twórcy
  • Wroclaw University of Technology, Faculty of Mechanical Enginering, Wroclaw, Poland
autor
  • Wroclaw University of Technology, Faculty of Mechanical Enginering, Wroclaw, Poland
autor
  • Wroclaw University of Technology, Faculty of Mechanical Enginering, Wroclaw, Poland
autor
  • Wroclaw University of Technology, Faculty of Mechanical Enginering, Wroclaw, Poland
Bibliografia
  • [1] PRZEMIENIECKI J.S., 1968, Theory of matrix structural analysis, McGraw-Hill Companies, New York.
  • [2] ZIENKIEWICZ O.C., 1971, The Finite Element Method in engineering science, McGraw-Hill Companies, London.
  • [3] OPITZ H., 1970, Moderne Produktionstechnik: Stand und Tendenzen, Essen: Verlag W. Girardet.
  • [4] SCHUNCK J., 1965, Untersuchungen über die Auswirkungen thermisch bedingter verlagerungen auf die Arbeitsgenauigkeit von Werkzeugmaschinen, Dissertation TH Aachen.
  • [5] BRAUNING H., 1972, Berechnung der instationaren Temperaturverteilung in Werkzeugmaschinen, Industrie Anzeiger, 94/77,
  • [6] ZANGS L., 1972, Die Berechnung thermischen bedingter Verformungen von Werkzeugmaschinen elementen, Industrie Anzeiger, 94/105.
  • [7] SPUR G., DENCKER B., 1968, Wärmeentwicklung und Wärmeaustausch an Werkzeugmaschinen, Werkstättechnik, 6, 260-264.
  • [8] FISHER H., 1970, Beitrag zur Untersuchung des thermischen Verhaltens von Bohr- und Fräsmaschinen, Dissertation TU Berlin.
  • [9] KLAEGER S., 1970, Berechnung des Temperaturfeldes der Standerkonstruktion eine Wälzfrasmachine, Wiss. Z. Techn. Hohschule Magdeburg, 14, 837-839.
  • [10] BASSENGE CH., KAHLERT F., 1974, Instationaren Temperaturfelde und thermisch bedingter Berechnung Verformungen von Werkzeugmaschinen bautteilen, Fortrage auf INFERT 74 Konf.
  • [11] JEDRZEJEWSKI J., POTRYKUS J., 1968, Die Wärmeableitung an Werkzeugmaschinen an Werkzeug- machinen – Spindellagerungen, 6 International Werkzeugmaschinen Tagung, Dresden.
  • [12] JEDRZEJEWSKI J., PAJAK J., 1974, Determination of temperature fields in machine tool structure elements, Werkzeugmachine International, 5, 61-66, (in German).
  • [13] JEDRZEJEWSKI J., 1975, Problems and method of thermal investigations of machine tools, Machinenbautechnik, 5, 231-234, (in German).
  • [14] SATA T., SATO N., TAKEUCHI Y., TAKASHIMA N., 1972, Analysis of thermal deformation of machine tool by the Finite Element Method, CIRP Annals 21/1.
  • [15] YOSHIDA Y., HONDA F., 1967, Thermal deformation of machine tool structure, CIRP Annals, 15, 337-344.
  • [16] HUNDUJA S., 1971, The Analysis of machine tool structure the Finite Element Method, PhD Thesis, UMIST, Manchester.
  • [17] SOKOLOV J.N., 1957, Wärmedeformation der Werkzeugmaschinen- Grundkörper, Stanki i Instrument, 10, 12-15.
  • [18] WIELE H., 1976, Zum Stand der Erkenntnisse über die Berechnungs möglichkeit von Temperatur ferteilungen an Werkzeugmaschinen, Wiss. Z. der Techn. Hohsch. Magdeburg, 20/5, 6250630.
  • [19] ATTIA M.H., KOPS L., 1988, Thermal Aspects in Manufacturing, PED, 30, Published by American Society of Mechanical Engineers, ISBN 10: 9999593062.
  • [20] JEDRZEJEWSKI J., 1988, Direction for improving the thermal stability of machine tools, ASME, PED, 30, 165-182.
  • [21] WECK M, et al, 1995, Reduction and compensation of thermal errors in machine tools, Annals of the CIRP 44/2, 589–598.
  • [22] MAYR J., JEDRZEJEWSKI J., UHLMANN E., DONMEZ M.A., KNAPP W., HÄRTIG F., WENDT K., MORIWAKI T., SHORE P., 2012, Thermal Issues in Machine Tools, CIRP Annals –Manufacturing Technology, 61/2, 771–791.
  • [23] JEDRZEJEWSKI J., KWASNY W., 2014, A step towards the holistic modelling of the HSC machining centre and the efficient compensation of its errors, International Journal of Computer Integrated Manufacturing, DOI: 10.1080/0951192X.2014.880945
  • [24] WINIARSKI Z., KOWAL Z., KWASNY W., HA J-Y., 2010, Thermal model of the spindle drive structure, Journal of Machine Engineering, 10/4, 41-52.
  • [25] CAO Y., ALTINTAS Y., 2005, A general method for the modelling of spindle-bearing systems, Journal of Mechanical Design, 126/6, 1089-1104.
  • [26] HOLKUP T., HOLY S., 2006, Complex Modelling of Spindle Rolling Bearings, Journal of Machine Engineering, 6/3, 48–61.
  • [27] JEDRZEJEWSKI J., KWASNY W., 2010, Modelling of angular contact ball bearings and axial displacements for high-speed spindles, CIRP Annals - Manufacturing Technology, 59, 377–382.
  • [28] WINIARSKI Z., KOWAL Z., 2006, Investigation of the effects of heat generation in HSM electroheadstocks. Journal of Machine Engineering 6/2, 107-115.
  • [29] WINIARSKI Z., KOWAL Z., BLAŻEJEWSKI A,: 2008, Decreasing of thermal errors in a lathe by forced cooling of ball screws and headstock, Journal of Machine Engineering, 8/4, 122-130.
  • [30] BRYAN J., 1990, International status of thermal error research Annals of the CIRP, 39/2, 645–656.
  • [31] SINHA P.K., PRASAD C., KALEEM M., ISLAM R., 2013, Analysis and simulation of chip formation & thermal effects on tool life using FEM, International Journal of Mechanical Engineering and Technology, (IJMET), 4/2, 53-78, ISSN 0976 – 6359.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7105e3eb-ec30-40ab-af4b-e3f019327a70
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.