Tytuł artykułu
Autorzy
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Thermo-elastic deformations represent one of the main reasons for positioning errors in machine tools. Investigations of the thermo-mechanical behaviour of machine tools, especially during the design phase, rely mainly on thermo-elastic simulations. These require the knowledge of heat sources and sinks and assumptions on the heat dissipation via convection, conduction and radiation. Forced convection such as that caused by moving assemblies has both a large influence on the heat dissipation to the surrounding air. The most accurate way of taking convection into account is via computational fluid dynamics (CFD) simulations. These simulations compute heat transfer coefficients for every finite element on the machine tool surface, which can then be used as boundary conditions for accurate thermo-mechanical simulations. Transient thermo-mechanical simulations with moving assemblies thus require a CFD simulation during each time step, which is very time-consuming. This paper presents an alternative by using characteristic diagrams to interpolate the CFD simulations. The new method uses precomputed thermal coefficients of a small number of load cases as support points to estimate the convection of all relevant load cases (i.e. ambient conditions). It will be explained and demonstrated on a machine tool column.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
41--53
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Fraunhofer Institute for Machine Tools and Forming Technology IWU Chemnitz, Germany
autor
- Dresden University of Technology, Institute of Machine Tools and Control Engineering, Dresden, Germany
autor
- Fraunhofer Institute for Machine Tools and Forming Technology IWU Chemnitz, Germany
autor
- Fraunhofer Institute for Machine Tools and Forming Technology IWU Chemnitz, Germany
Bibliografia
- [1] WECK M., MCKEOWN P., BONSE R., HERBST U., 1995, Reduction and compensation of thermal errors in machine tools, Annals of the CIRP, 44/2, 589-598.
- [2] KAUSCHINGER B., MÜLLER J., RIEDEL M., THIEM X., 2016, Principle and verification of a structure model based correction approach, Procedia CIRP 46, 111-114, DOI: 10.1016/j.procir.2016.03.169.
- [3] Verein Deutscher Ingenieure (VDI), 2006, VDI-Wärmeatlas – Berechnungsblätter für den Wärmeübertrag. VDI Verlag Berlin.
- [4] DROSSEL W.G., GROSSMANN K., IHLENFELDT S., SCHROEDER S., ZWINGENBERGER C., 2013, Modellierung des Wärmeaustauschs Maschine-Umgebung, Tradition und Gegenwart bei der Analyse des thermischen Verhaltens spanender Werkzeugmaschinen, 16, Dresdner Werkzeugmaschinen-Fachseminar.
- [5] ESS M., 2012, Simulation and Compensation of Thermal Errors of Machine Tools, Dissertation, ETH Zurich.
- [6] GLÄNZEL J., IHLENFELDT S., NEUGEBAUER R., RICHTER C., ZWINGENBERGER C., 2015, Modelling of thermal interactions between environment and machine tool, Thermo-energetic Design of Machine Tools, Lecture Notes in Production Engineering, Springer, 111-124.
- [7] GLÄNZEL J., IHLENFELDT S., NAUMANN C., PUTZ M., 2016, Decoupling of fluid and thermo-elastic simulations of machine tools using characteristic diagrams, Proceedings CIRP ICME 2016, Ischia (Italy).
- [8] GLÄNZEL J., IHLENFELDT S., NAUMANN C., 2017, Effiziente Quantifizierung der Konvektion durch Entkoppelte Strömungs- und Strukturmechanische Simulation, Beispielhaft am Maschinenständer, 5 Kolloquium SFB/TR96, Chemnitz.
- [9] BUHMANN M.D., 2004, Radial Basis Functions, Cambridge University Press.
- [10] UNGER R., 2009, Obstacle Description with Radial Basis Functions for Contact Problems in Elasticity, Preprint CSC 09-01 TU Chemnitz.
- [11] GLÄNZEL J., UNGER R, IHLENFELDT, 2018, Clustering by optimal subsets to describe environment interdependencies, Conference on Thermal Issues in Machine Tools, Dresden.
- [12] PRIBER U., 2003, Smoothed Grid Regression, Proceedings Workshop Fuzzy Systems, Vol. 13, Dortmund, Germany, 159-172.
- [13] IHLENFELDT S., NAUMANN C., PRIBER U., RIEDEL I., 2015, Characteristic Diagram Based Correction Algorithms for the Thermo-elastic Deformation of Machine Tools, Proceedings 48th CIRP CMS, Naples.
- [14] GLAENZEL J., IHLENFELDT S., NAUMANN C., PUTZ M., 2017, Optimized Grid Structures for the Characteristic Diagram Based Estimation of Thermo-elastic Tool Center Point Displacements in Machine Tools, Journal of Machine Engineering, 17/3.
- [15] NAUMANN C., PRIBER U., 2012, Modellierung des Thermo-Elastischen Verhaltens von Werkzeugmaschinen mittels Hochdimensionaler Kennfelder, Proceedings Workshop Computational Intelligence, Dortmund, Germany.
- [16] HERZOG R., NAUMANN C., PRIBER U., RIEDEL I., 2015, Correction Algorithms and High-Dimensional Characteristic Diagrams. In: Thermo-energetic Design of Machine Tools, Lecture Notes in Production Engineering, Springer, 159-174.
- [17] CENGEL Y.A., 2003. Heat Transfer: A Practical Approach. McGraw-Hill, 2nd Edition.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-18c36c38-2502-4f16-8457-86d62dbddee8