Open Access
Issue
MATEC Web Conf.
Volume 254, 2019
XXIII Polish-Slovak Scientific Conference on Machine Modelling and Simulations (MMS 2018)
Article Number 01016
Number of page(s) 15
Section Methods and Systems in Machine Design
DOI https://doi.org/10.1051/matecconf/201925401016
Published online 15 January 2019
  1. J. Gerlici, T. Lack, Railway wheel and rail geometry influence on ride properties of the vehicle (in Slovak). 16. International Conference PRORAIL 2003 – Current problems in rail vehicles, Universtity of Žilina, 163-171 (2003), ISBN 80-968823-6-8 [Google Scholar]
  2. J. Gerlici, T. Lack, Contact of a railway wheelset and a rail (in Slovak). Scientific monograph, EDIS – publishing house of University of Žilina, (2004), ISBN 80-8070-317-5 [Google Scholar]
  3. J. Gerlici, T. Lack: Transport Means properties Analysis Vol. I. Monography,. EDIS – Publishing house of University of Žilina, 214 (2005), ISBN 80-8070-408-2 [Google Scholar]
  4. J. Gerlici, T. Lack, M. Kadorová, Calculation of the equivalent conicity function of the railway wheelset tread profile at the Delta R function with a negative slope. Communications – Scientific Letters of the University of Žilina, 6, 2, 49-56 (2004), ISSN 1335-4205 [Google Scholar]
  5. T. Lack, J. Gerlici, Contact area and normal stress determination on railway wheel / rail contact. Communications – Scientific Letters of the University of Žilina, EDIS – Publishing house of University of Žilina, 38-45 (2005), ISSN 1335-4205. [Google Scholar]
  6. T. Lack, J. Gerlici, Profiles synthesis through radii variation of arcs profile.= (In Slovak). Current problems in Rail Vehicles, DFJP UP, DP Česká Třebová, 115-135 (2005), ISBN 80-7194-780-6 [Google Scholar]
  7. H. Lehna, A. Theiler, Radprofiloptimierung bei der Verkehrsbetrieben Zürich. Rad Schiene. 6. Internationale Schienenfahrzeugtagung, Dresden, 42-50 (2003). [Google Scholar]
  8. R. Müller, Die Problematik der Berührungsgeometrie Rad/Schiene. ZEV+DET Glas. Ann. 118, 3 März, Georg Siemens Verlagsbuchhandlung (1995). [Google Scholar]
  9. R. Müller, Zusammenwirken von Radund Schienenprofilen. Rad Schiene 2003, 6. Internationale Schienenfahrzeug-tagung, Dresden, 30-34 (2003). [Google Scholar]
  10. A. Neftzger, Geometrie der Berührung zwischen Radsatz und Gleis. ETR – Eisenbahntechnische Rundschau, 3, 113-122 (1974), DK 681.938:625.1 /.2.031.3 [Google Scholar]
  11. E. Scheunemann, T. Kolbe, R. Müller, Geometrie Rad /Schiene, ein gemensames Thema für Fahrzeug und Fahrweg. ZEV+DET Glas. ZEVrail Glasers Annalen 129, Tagungsband SFT Graz 2005. Georg Siemens Verlagsbuchhandlung, 168-189 (2005). [Google Scholar]
  12. B. Bergander, G. Dendl, A. Neftzger, D. Nicklisch, Die Entwicklung von Radund Schienenprofilen. ZEVrail Glasers Annalen 127, 482-503 (2003) [Google Scholar]
  13. P. Baran, M. Brezáni, P. Kukuča, P. Šťastniak, Basic dynamical analysis and comparison of balancing systems of non-conventional piston machine FIK. Procedia Engineering, 192, 34-39 (2017), ISSN 1877-7058 [CrossRef] [Google Scholar]
  14. C. Bußmann, A. Neftzger, Die Entwicklung von Schienenprofilen unter dem Einfluß von Verschleiß und die Auswirkungen auf das quasistatische Kurvenlaufverhalten eines Fahrzeuges. VDI Berichte NR.820, Systemdynamik der Eisenbahn (1990). [Google Scholar]
  15. T. Hayashi, M. Toyama, K. Hino, M. Isa, Development of wheel tread nicknamed “CS Tread” for narrow gauge lines. World congress on railway research Tokyo, Japan, 195-198 (1999). [Google Scholar]
  16. J. Izer, Efective and equivalent conicity of the wheel tread profil of railway wheelset. (In Czech) PRORAIL’95 Current problems in rail vehicles, VŠDS Žilina (1995). [Google Scholar]
  17. EN 13715:1999, Bahnanwendungen, Radsätze und Drehgestelle, Räder – Radprofile. Deutsche Fassung EN 13715:1999. [Google Scholar]
  18. Z. Riečanová, at al., Numerical methods and mathematical statistics. (In Slovak). University textbook, Alfa Bratislava (1987), 063-559-87 NMA [Google Scholar]
  19. K. Sasaki, K. Kageyama, K. Asano, M. Okumura, Development of the wheel tread profile for commuter train (Investigation of the wear profile of the wheel tread and the rail head. Proc. the 5-th International Conference on Contact Mechanics and Wear of Rail/Wheel Systems CM2000 (SEIKEN Symposium 27), Tokyo, 265-270 (2000). [Google Scholar]
  20. M. Sága, M. Letrich, R. Kocúr, An Analysis of Vehicle Vibration with uncertain system parameters. Communications – Scientific letters of the University of Žilina, EDIS – Publishing house of University of Žilina, 16-21 (2005), ISSN 1335-4205 [Google Scholar]
  21. G. Shen, J. Ayasse, H. Chollet, I. Pratt, A unique design method for wheel profiles by considering the contact angle function. Proc. Instn. Mech. Engrs, 217 Part F.: J. Rail and Rapid Transit, IMechE, 25-30 (2003), F01902 [CrossRef] [Google Scholar]
  22. P. Baran, P. Šťastniak, P. Kukuča, M. Brezáni, Investigation of kinematic parameters of two nonconventional piston machines with wobble board. MATEC Web of conferences 157 (2018), ISSN 2261-236X [Google Scholar]
  23. L. Smetanka, P. Šťastniak, J. Harušinec, Wear research of railway wheelset profile by using computer simulation. MATEC Web of conferences 157 (2018), ISSN 2261-236X [Google Scholar]
  24. P. Šťastniak, M. Moravčík, P. Baran, L. Smetanka, Computer aided structural analysis of newly developed railway bogie frame. MATEC Web of conferences 157 (2018), ISSN 2261-236X [Google Scholar]
  25. UIC Code 519: Method for determining the equivalent conicity. Draft of January 2003 Original version (2003). [Google Scholar]

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