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Integration and verification of miniature fluid film pressure sensors in hydrodynamic linear guides

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Previously, a 2D simulation model for hydrodynamic linear guides with two reduction factors has been developed to calculate oil film pressure and floating heights/angle numerically. However, no method was available to verify the oil film pressure experimentally but only with floating heights measurement. Therefore, different pressure sensor’s integration methods were tested in a stationary Plexiglas rail to measure fluid film pressure inside the lubrication gap. The pressure sensors were statically and dynamically calibrated. However, floating heights could not be measured with the preliminary used Plexiglas rail. This paper reports the suitable integration of pressure sensors into a stationary steel rail to compensate this drawback. It focuses on the measurement of pressure rise using pressure sensors inside the lubrication gap in combination with the floating heights. Experimental results have shown that the oil film pressure inside the lubrication gap can be measured using pressure sensors, which draw conclusions about cavitation and lack of lubrication. The variation of oil film pressure measured along the length of the carriage can be used to improve the simulation model i.e. the reduction factors. The pressure measurement can help to identify the lubrication conditions and further actions can be taken to improve the lubrication cycle.
Rocznik
Strony
38--55
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
autor
  • Faculty of Mechanical Engineering, Professorship for Machine Tools and Production Processes, Chemnitz University of Technology, Germany
  • Faculty of Mechanical Engineering, Professorship for Machine Tools and Production Processes, Chemnitz University of Technology, Germany
  • Faculty of Mechanical Engineering, Professorship for Machine Tools and Production Processes, Chemnitz University of Technology, Germany
autor
  • Faculty of Mechanical Engineering, Professorship for Machine Tools and Production Processes, Chemnitz University of Technology, Germany
  • Institute for Machine Tools and Forming Technology, Fraunhofer (IWU), Germany
Bibliografia
  • [1] HIRSCH A., ZHU B., 2011, Hydrodynamische Gleitführungen in Werkzeugmaschinen – ein Auslaufmodell?. In: Konstruktion, 63 , 11–12, 67–72.
  • [2] LAKAWATHANA P., MATSUBARA T., NAKAMUTRA R., 1998, Mechanism of Hydrodynamic Load Capacity Generation on a Slideway. JSME International Journal, C, 41/1, 125–133.
  • [3] ZHANG Y., WITTSTOCK V.., PUTZ M., 2018, Simulation for Instable Floating of Hydrodynamic Guides During Acceleration and at Constant Velocity. In: Journal of Machine Engineering, 18/3, 5–15 ISSN 1895-7595 (Print) ISSN 2391-8071 (Online), https://doi.org/10.5604/01.3001.0012.4602.
  • [4] ZHANG, Y.; WITTSTOCK, V.; PUTZ, M., 2019 Modellierung des Aufschwimmverhaltens hydrodynamischer Linearführungen bei konstanter Geschwindigkeit. In: Forschung im Ingenieurwesen, Online ISSN 1434-0860, https://doi.org/10.1007/s10010-019-00308-x, 83/2, 267–272.
  • [5] BHUSHAN B., 2002, Introduction to Tribology. USA:John Wiley & Sons, Inc.
  • [6] BREWE D.E., 2001, Slider Bearings. In: Bhushan, B. (Ed.), Modern Tribology Handbook, Vol 2. USA: CRC Press, 969–1039.
  • [7] SINANOGLU C., NAIR F., KARAMIS M.B., 2005, Effects of shaft surface texture on journal bearing pressure distribution. Journal of Materials Processing Technology, 168, 344–353.
  • [8] ICHIKAWA s:; MIHARA Y., SOMEYA T., 1995, Study on Main Bearing Load and Deformation of Multi-Cylinder Internal Combustion Engine: relative inclination between main shaft and bearing. JSAE Review, 16, 383–386.
  • [9] MIHARA Y., HAYASHI T., NAKAMURA M., SOMEYA T., 1995, Development of Measuring Method for Oil Film Pressure of Engine Main Bearing by Thin Film Sensor. JSA Review, 16, 125–130.
  • [10] MIHARA Y., KAJIWARA M., FUKAMATSU T., SOMEYA T., 1996, Study on the Measurement of Oil Film Pressure of Engine Main Bearing by Thin-Film Sensor – The influence of bearing deformation on pressure sensor output under engine operation. JSA Review, 17, 281–286.
  • [11] MIHARA Y., SOMEYA T., 2002, Measurement of Oil Film Pressure in Enginer Bearings Using a Thin-Film Sensor. Tribology Transactions, 45/1, 11–20.
  • [12] SOMEYA T., MIHARA Y., 2004, New Thin Film Sensors for Engine Bearings. In proceeding of the CIMAC Congress, Kyoto, Paper 91, 16.
  • [13] IBRAR B., WITTSTOCK V., REGEL J., DIX M., 2022 Development of the Sensor to Measure the Pressure Distribution in the Lubrication Gap for Linear Hydrodynamic Guides In: Proc. Cong. of the German Academic Association for Production Technology (WGP), Stuttgart.
  • [14] https://www.kyowa-ei.com/eng/product/category/sensors/ps-d/index.html.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0319d160-286e-4749-8870-03a02e240314
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