Analysis of Inner Surface Roughness Parameters of Load-carrying and Support Elements of Mechanical Systems (RESEARCH NOTE)

Authors

1 Ternopil Ivan Pul’uj National Technical University, Ternopil, Ukraine

2 National Aviation University, Kiev, Ukraine

Abstract

Physical and mechanical regularities in the effect of certain processing operations on the shape and roughness of the hydraulic cylinder surface are found. The mechanisms of the spatial self-organization of the relief and surface of bearings under conditions of false brinelling are summarized and analyzed. The data obtained can be used for further scientific generalization or prediction and diagnostics of the surface condition of load-carrying and support elements of mechanical systems under study.

Keywords


1.     Panin, V.E., Panin, A., Moiseenko, D., Elsukova, T., Kuzina, O.Y. and Maksimov, P., "The chess-board effect in the stress-strain distribution at interfaces of a loaded solid", in Doklady Physics, Springer. Vol. 51, (2006), 408-411.

2.     Panin, V.E., Moiseenko, D., Maksimov, P. and Panin, A., "Physical mesomechanics of a deformed solid as a multilevel system. Iii. Inelastic precursor of plastic shear generation", Physical Mesomechanics,  Vol. 10, No. 1-2, (2007), 15-24.

3.     Dimkovski, Z., Anderberg, C., Rosén, B.-G., Ohlsson, R. and Thomas, T., "Quantification of the cold worked material inside the deep honing grooves on cylinder liner surfaces and its effect on wear", Wear,  Vol. 267, No. 12, (2009), 2235-2242.

4.     Maruschak, P., Panin, S.V., Zakiev, I., Poltaranin, M. and Sotnikov, A., "Scale levels of damage to the raceway of a spherical roller bearing", Engineering Failure Analysis,  Vol. 59, (2016), 69-78.

5.     Maruschak, P., Zakiev, I., Mocharsky, V. and Nikiforov, Y., "Experimental study of the surface of steel 15Kh13MF after the nanosecond laser shock processing", in Solid State Phenomena, Trans Tech Publ. Vol. 200, (2013), 60-65.

6.     Kryvyi, P.D., Dzyura, V.O., Tymoshenko, N.M. and Krupa, V.V., "Technological heredity and accuracy of the cross-seсtion shapes of the hydro-cylinder cylindrical surfaces", Canadian Journal of Science, Education and Culture,  Vol. 1, (2014), 301-308.

7.     Costes, J.P. and Moreau, V., "Surface roughness prediction in milling based on tool displacements", Journal of Manufacturing Processes,  Vol. 13, No. 2, (2011), 133-140.

8.     Kolmogorov, V., "Friction and wear model for a heavily loaded sliding pair. Part i. Metal damage and fracture model", Wear,  Vol. 194, No. 1-2, (1996), 71-79.

9.     Bhadeshia, H., "Steels for bearings", Progress in materials Science,  Vol. 57, No. 2, (2012), 268-435.

10.   Kolmogorov, V., Fedotov, V. and Spevak, L., "A mathematical model for the formation and development of defects in metals", Studies in Applied Mechanics,  Vol. 45, (1997), 51-60.

11.   Organisciak, M., Cavallaro, G. and Lubrecht, A., "Starved hydrodynamic lubrication of the piston ring cylinder liner contact: Preliminary study of the influence of surface texturing", Tribology and Interface Engineering Series,  Vol. 48, (2005), 573-583.

12.   Izmailov, V. and Kourova, M., "Correlation between surface topography and profile statistical parameters", Wear,  Vol. 59, No. 2, (1980), 409-420.

13.   Sotnykov, O., Rodionov, M., Maruschak, P., Brezinová, J., Guzanová, A. and Apostol, Y., "Failure analysis of the hinge-lever mould oscillator bearings of the continuous casting machine", Strength, Fracture and Complexity,  Vol. 8, No. 3, (2014), 135-143.

14.   Lytvynenko, I., Maruschak, P. and Lupenko, S., "Processing and modeling of ordered relief at the surface of heat-resistant steels after laser irradiation as a cyclic random process", Automatic Control and Computer Sciences,  Vol. 48, No. 1, (2014), 1-9.