Impact of Technological System’s Characteristics on the Machining Accuracy of Bearing Rings | Journal of Engineering Sciences

Impact of Technological System’s Characteristics on the Machining Accuracy of Bearing Rings

Author(s): Halchuk T. N.1, Povstyanoy O. Yu.1, Bembenek M.2, Redko R. G.1, Chetverzhuk T. I.1, Polinkevych R. M.1

1 Lutsk National Technical University, 75, Lvivska St., 43018 Lutsk, Ukraine;
2 AGH University of Science and Technology, 30, Adama Mickiewicza Ave., 30-059, Krakow, Poland

*Corresponding Author’s Address: [email protected]

Issue: Volume 10, Issue 1 (2023)

Submitted: March 2, 2023
Received in revised form: April 28, 2023
Accepted for publication: May 30, 2023
Available online: June 5, 2023

Halchuk T. N., Povstyanoy O. Yu., Bembenek M., Redko R. G., Chetverzhuk T. I., Polinkevych R. M. (2023). Impact of technological system’s characteristics on the machining accuracy of bearing rings. Journal of Engineering Sciences, Vol. 10(1), pp. A22-A30, doi: 10.21272/jes.2023.10(1).a4

DOI: 10.21272/jes.2023.10(1).a4

Research Area:  MANUFACTURING ENGINEERING: Machines and Tools

Abstract. The article shows the influence of the technological system of an automated lathe, in particular cam chucks, on the accuracy of machining bearing rings for production conditions. The value of the deformation during machining, i.e., the non-circularity of the ring of a single row tapered roller bearing 32017X in outer diameter, was investigated. For the study, samples were selected that were processed under the same conditions directly in the production unit of PJSC “SKF Ukraine” without interference with the technological process. The use of replaceable floating cams in the chuck design was proposed to increase the accuracy and productivity of machining. Experimental studies have shown that the machined surface’s ovality depends on the chuck cams’ clamping force. The effectiveness of computer processing of statistical data on the accuracy control of engineering products was shown. Implementing machining accuracy control in production using the Minitab computer program was presented. It was proven that the quality of products is formed under the influence of the use of modern computer technologies at all stages of manufacturing and control of parts, which ensures research in a wide range of changes in technological parameters and comparison of individual studies with actual machining conditions on the machine, with the results of a sufficient level of reliability.

Keywords: turning, machining errors, production, workpiece, cam chuck, product innovation.


  1. Lee, S. H., Lee, H. J., Lee, K. H. et al. (2020). A novel variable stiffness scotch yoke series elastic actuator for enhanced functional stiffness. Microsyst Technol, Vol. 26, pp. 3395-3402,
  2. Marchuk V., Mykhalevytch V. (2008). Deviation of the shape of surfaces and their influence on the dimensional accuracy of bodies of rotation. Scientific Notes: Interuniversity Collection. Series “Engineering Mechanics”, Vol. 23, pp.197-202.
  3. Raghu, A., Melkote, S. N. (2005). Modeling of workpiece location error due to fixture geometric error and fixture-workpiece compliance. J. Manuf. Sci. Eng., Vol. 127(1), pp. 75-83,
  4. Alquraan, T., Kuznetsov, Y., Tsvyd, T. (2016). High-speed ɋlamping Mechanism of the CNC lathe with compensation of centrifugal forces. Proceedia Engineering, Vol. 150(2016), pp. 689-695,
  5. Kuznetsov, Y.M., Lutsiv, I.V., Shevchenko, A.V., Voloshin, V.N. (2011). Technological Equipment for High Speed and a Precision Machining on Lathes. Technograph, Kyiv, Ukraine.
  6. Gal’chuk, Т. (2017). Computer processing of static information accuracy control products of mechanical engineering computer-integrated technologies. Education, Science, Production, Vol. 26, pp.42-47.
  7. Yuze, M., Liqin, W., Chi, Z. (2018). Influence of ring deformation on the dynamic characteristics of a roller bearing in clearance fit with housing. International Journal of Mechanical Sciences, Vol. 138(139), pp. 122-130,
  8. Jang, G., Jeong, S.-W. (2004). Vibration analysis of a rotating system due to the effect of ball bearing waviness. Journal of Sound and Vibration. Vol. 269(3-5), pp. 709-726.
  9. Sölter, J., Nowag, L., De Rocha, A., Walter, A., Brinksmeier, E., Hirsch, T. (2004). Einfluss von Maschinenstellgrößen auf die Eigenspannungszustände beim Drehen von Wälzlagerringen. HTM, Vol. 59(3). pp.169-175.
  10. Bernatskyi, A., Sydorets, V., Berdnikova, O., Krivtsun, I., Chinakhov, D. (2020). Pore formation during laser welding in different spatial position. Solid State Phenomena. Vol. 303, pp.47-52,
  11. Dobrotvor, I., Stukhlyak, P., Mykytyshyn, A., et al. (2021). Influence of thickness and dispersed impurities on residual stresses in epoxy composite coatings. Strength Mater, Vol. 53, pp. 283-290,
  12. Zhu, H., Chen, W., Zhu, R., et al. (2020). Dynamic analysis of a flexible rotor supported by ball bearings with damping rings based on FEM and lumped mass theory. J. Cent. South Univ., Vol. 27, pp. 3684-3701,
  13. Wang, H., Gong, J., Chen, G. (2017). Characteristics analysis of aero-engine whole vibration response with rolling bearing radial clearance. Journal of Mechanical Science and Technology. Vol. 37, pp. 2129-2141, doi:
  14. Liu, X., Liu, Y., Wang, S., Yan, H., Liao, P. (2019). Bifurcation analysis of a magnetically supported rigid rotor in auxiliary bearings. Chaos, Solitons & Fractals, Vol. 118, pp. 328-336,
  15. Ahmer, M., Sandin, F., Marklund, P., et al. (2022). Failure mode classification for condition-based maintenance in a bearing ring grinding machine. Int J Adv Manuf Technol, Vol. 122, pp. 1479-1495,
  16. Kulíšek, V., Kolar, P., Vrba, P., et al. (2021). On passive damping in machine tool hybrid structural parts. Int J Adv Manuf Technol, Vol. 114, pp. 1925-1952,
  17. D’Emiliaa, G., Gasparia, A., Hohwielerb, E., Laghmouchib, A., Uhlmannb, E. (2018). Improvement of defect detectability in machine tools using sensor-based condition monitoring applications. Procedia CIRP, Vol. 67, pp. 325-331,
  18. Kocovic, V., Vukelic, D., Kostic, S., et al. (2023). Micro-cutting of holes by centrifugal force. Int J Adv Manuf Technol, Vol. 124, pp. 1437-1455,
  19. Obertyukh, R., SlabkyіA., Polishchuk, L., Povstianoi, O., Kumargazhanova, S., Satymbekov, M. (2022). Dynamic and mathematical models of the hydroimpulsive vibro-cutting device with a pressure pulse generator bult into the ring spring. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska, Vol. 12(3), pp. 54-58,
  20. Povstyanoy, O., Zabolotnyi, O., Kovalchuk, O., Somov, D., Chetverzhuk, T., Gromaszek, K., Amirgaliyeva, S., Denissova, N. (2021). Analysis, development, and modeling of new automation system for production of permeable materials from machining waste. Mechatronic Systems, Vol. 1(2021), 12, https://DOI:10.1201/9781003224136-14
  21. Maiß, O., Denkena, B., Grove, T. (2016). Hybrid machining of roller bearing inner rings by hard turning and deep rolling. J. of Mat. Pr. Tech., Vol. 230, pp. 211-216.
  22. Ma, C., Liu, J., Wang, S. (2020). Thermal contact conductance modeling of baring outer ring/bearing housing interface. International Journal of Heat and Mass Transfer, Vol. 150, pp. 789-799,
  23. Ruihong, J., Shulin, L., Youfu, T., Yinghui, L. (2015). A novel method of fault diagnosis for rolling element bearings based on the accumulated envelope spectrum of the wavelet packet. Journal of Vibration and Control, Vol. 21(8), pp. 1580-1593,
  24. Fredriksson, M. J., Petersson, P., Axelsson C. S., Bylund, D. (2015). An automatic peak finding method for LC-MS data using Gaussian second derivative filtering. Journal of Separation Science, Vol. 32(22), pp. 3906-3918,

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