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ORIGINAL PAPER
Measurements of Temperature of CNC Machine Tool Ball Screw Utilising IR Method
1
West Pomeranian University of Technology in Szczecin, Faculty of Mechanical Engineering, al. Piastów 19, 70-310 , Szczecin, Poland
Online publication date: 2017-09-09
Publication date: 2017-08-01
International Journal of Applied Mechanics and Engineering 2017;22(3):769-777
KEYWORDS
ABSTRACT
In numerous papers it is proposed to use IR measurements of feed axis ball screw temperature distribution in order to compensate CNC machine tool thermal errors. The paper aims to validate reliability of the IR measurements in application to the feed axes ball screws. The identification of key factors influencing the accuracy of the IR measurements of ball screw temperature distribution has been conducted. A test-bench utilizing a ball screw assembly with built-in temperature sensors was introduced and the experimental data are presented along with conclusions.
REFERENCES (15)
1.
Yang J., Mei X., Feng B., Zhao L., Ma C. and Shi H. (2015): Experiments and simulation of thermal behaviors of the dual-drive servo feed system. – Chinese Journal Of Mechanical Engineering, vol.28, pp.76-87.
2.
Jin C., Wu B. and Hu Y. (2015): Study on thermal behavior analysis of nut/shaft air cooling ball screw for high-precision feed drive. – Int. J. Adv. Manuf. Technol., vol.77, pp.1979-1992.
3.
Różański L. and Poloszyk S. (2004): Application of thermovision in machine diagnostics. Madura H. (red.) Practical thermovision measurements, pp.75-83. – Warsaw: PAK.
4.
Heisel U., Koscsak G. and Stehle T. (2006): Thermography-based investigation into thermally induced positioning errors of feed drives by example of a ball screw. – CIRP Annals - Manufacturing Technology, vol.55, pp.423-426.
5.
Horejš O., Bárta P. and Hornych J. (2007): Determination of positioning error of feed axes due to thermal expansion by infrared thermography. – ATEM'07, JSME-MMD, Sep. 12-14.
6.
Shi H., Ma C., Yang J., Zhao L., Mei X. and Gong G. (2016): Investigation into effect of thermal expansion on thermally induced error of ball screw feed drive system of precision machine tools. – Int. J. of Adv. Manuf. Technol., vol.82, pp.1693–1705.
7.
Maldague X. (1994): Infrared methodology and technology. – Amsterdam: Gordon and Breach Science Publishers.
8.
Raznjevic K. (1964): Heat transfer charts with graphs: numerical data in units of technical and international system. – Warsaw: WNT.
9.
Vollmer M. and Möllmann K.-P. (2010): Infrared thermal imaging. – Weinheim: Wiley-VCH.
10.
Minkina W. and Dudzik S. (2009): Infrared thermography: errors and uncertainties. – Witshire: John Wiley and Sons.
11.
Pajor M. and Zapłata J. (2014): Intelligent machine tool – A thermal diagnostic system for a CNC pretensioned ball screw. – Solid State Phenomena, vol.220-221, pp.491-496.
12.
Pajor M. and Zapłata J. (2013): Supervising and compensation of thermal error of CNC feed ball screw. – Diagnostics, vol.14, pp.37-42.
13.
Holman J.P (1986): Heat Transfer, sixth edition. – Singapore: McGraw-Hill Book Company.
14.
Kanayama K. (1972): Apparent directional emittances of V-groove and circular-groove rough surfaces. – Heat Transfer - Jpn. Res., vol.1, pp.41–49.
15.
Peeters J., Ribbens B., Dirckx J. and Steenackers G. (2016): Determining directional emissivity: Numerical estimation and experimental validation by using infrared thermography. – Infrared Physics and Technology, vol.77, pp.344–350.
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