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Measurement Techniques

, Volume 58, Issue 5, pp 501–505 | Cite as

Development and Creation of a Linear Displacement Guide Rail with Nanometric Deviation from Linearity at Submetric Scales of the Measurement Base

  • V. B. Loginov
  • V. I. Troyan
  • P. V. Borisyuk
  • E. V. Chubunova
  • A. G. Elkin
  • B. A. Loginov
LINEAR AND ANGULAR MEASUREMENTS
  • 44 Downloads

A method of creating modern linear displacement guide rails is presented and the construction of instruments for measurement of the geometry of a surface with measuring base 200 mm, range of height measurements 100 mm, and deviations from linearity by height 15 nm is presented. Approaches for eliminating vibrations that arise at the guide rail – carriage interface as well as a modernized system of recording the profile of a surface in combination with a more sensitive variable inductance transducer are proposed.

Keywords

linear displacement guide rail surface roughness certification contour measuring machine 

References

  1. 1.
    S. A. Kononogov, Metrology and the Fundamental Physical Constants, STANDARTINFORM, Moscow (2008).Google Scholar
  2. 2.
    V. B. Loginov, V. I. Troyan, A. G. Elkin, et al., “The technique of contour mapping of nonometric precision for diagnostics of multilayer nanodimensional structures,” Poverkhn. Rentg., Sinkhrotr. Neitr. Issl., No. 5, 52–57 (2014).Google Scholar
  3. 3.
    V. I. Kuz’menko and V. A. Vasilenko, “On the subject of improving the construction and technology of the process of fabricating the guide elements of grinding machines in order to increase their operating precision,” Vest. Nats. Tekh. Univ. Kharkov. Politekh. Inst., 47, 145–153 (2011).Google Scholar
  4. 4.
    Y. S. Tarng, J. Y. Kao, and Y. S. Lin, “Identification and compensation for backlash on the contouring accuracy of CNC machining centres,” Int. J. Adv. Manuf. Techn., 13, 77– 85 (1997).CrossRefGoogle Scholar
  5. 5.
    L. Eung-Suk, S. Suk-Hwan, and Jin-Wook Shon, “A comprehensive method for calibration of volumetric positioning accuracy of CNC-machines,” Int. J. Adv. Manuf. Techn., 14, 43–49 (1998).CrossRefGoogle Scholar
  6. 6.
    V. B. Loginov, V. I. Troyan, A. G. Elkin, and B.A. Loginov, Patent 2537363 RF, “A precision displacement device,” Izobret. Polezn. Modeli, No. 1 (2014).Google Scholar
  7. 7.
    GOST 520–2002, Anti-Friction Bearings. General Technical Conditions.Google Scholar
  8. 8.
    T. A. Kontorova, “Friction between solid surfaces,” Usp. Fiz. Nauk, 18, Iss. 3, 346–391 (1937).Google Scholar

Copyright information

© Springer Science+Business Media New York 2015

Authors and Affiliations

  • V. B. Loginov
    • 1
  • V. I. Troyan
    • 1
  • P. V. Borisyuk
    • 1
  • E. V. Chubunova
    • 1
  • A. G. Elkin
    • 2
  • B. A. Loginov
    • 2
  1. 1.National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)MoscowRussia
  2. 2.National Research University of Electronic Technology (MIET)MoscowRussia

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