In the paper the set of representative parameters for a comprehensive assessment of the surface texture status after slide burnishing has been proposed. The analysis of correlations between the parameters of the surface texture, obtained by slide diamond burnishing of 317Ti steel has been performed. Correlations have been determined and several groups of surface texture parameters with strong mutual correlations (also parameters uncorrelated with the other) have been selected. For both groups of parameters - representative and uncorrelated - experimental mathematical relations defining influences of the input parameters of slide diamond burnishing on the surface texture parameters have been developed. Also, interaction effects for individual parameters of this finishing process have been disclosed. It has been found that by appropriate selection of input conditions of the slide diamond burnishing process, it is possible to obtain a wide range of states of the surface texture.
 Oczos, K.E., Liubimov, V. (2003). Struktura geometryczna powierzchni [Surface Geometric Structure]. Rzeszow, Poland: Rzeszow Technical University Publishing House. (in Polish)
 Berglund, J., Brown C.A., Rose, B.G., Bay, N. (2010). Milled die steel surface roughness correlation with steel sheet friction. CIRP Annals - Manufacturing Technology, 59, 577-580.
 Sedlacek, M., Podgornik, B., Vizintin, J. (2012). Correlation between standard roughness parameters skewness and kurtosis and tribological behaviour of contact surfaces. Tribology International, 48, 102-112.
 Stout, K., Davis, E.I., Sullivan, P.I. (1990). Atlas of Machined Surfaces. Chapman and Hall.
 Stout, K.J., Dong, W.P., Mainsah, E. (1993). A proposal for standardization of assessment of threedimensional micro-topography - Part 1. Surface digitisation and parametric characterisation. University of Birmingham.
 Thomas, T.R. (1999). Rough Surfaces. Imperial College Press.
 Niemczewska-Wójcik, M. (2017). Multi-sensor measurements of titanium alloy surface texture formed at subsequent operations of precision machining process. Measurement, 96, 8-17.
 Low, K.O. (2011). Surface characteristics modification of polyoxymethylene and polyurethane using burnishing. Tribology Transactions, 54 (1), 96-103.
 Yusof, N.F.M., Ripin, Z.M. (2014). Analysis of surface parameters and vibration of roller bearing. Tribology Transactions, 57 (4), 715-729.
 Coutinho, R., Marinescu, I.D. (2005). Methodology to compare 3-D and 2-D parameters for the optimization of hard turned surfaces. Machining Science and Technology, 9 (3), 383-409.
 Wang, G., Zhou, X., Meng, G., Yang, X. (2017). Modeling surface roughness for polishing process based on abrasive cutting and probability theory. Machining Science and Technology, 22 (1), 86-98.
 Grzesik, W. (2016). Prediction of the functional performance of machined components based on surface topography: State of the art. Journal of Materials Engineering and Performance, 25 (10), 4460-4468.
 Wagner, J.J., Jenson, A.D., Sundararajan, S. (2017). The effect of contact pressure and surface texture on running-in behavior of case carburized steel under boundary lubrication. Wear, 376-377, 851-857.
 Krzyzak, Z., Pawlus, P. (2006). ‘Zero-wear’ of piston skirt surface topography. Wear, 260, 554-561.
 Profito, F.J., Vlădescu, S-C., Reddyhoff, T., Dini, D. (2017). Transient experimental and modelling studies of laser-textured microgrooved surfaces with a focus on piston-ring cylinder liner contacts. Tribology International, 113, 125-136.
 Khelifi, C., Do, M.T., Kane, M., Adenot Meyer, M. (2017). Wear and wet friction of steel tracks for rubber-tired metros. Wear, 376-377, 1912-1918.
 Niemczewska-Wójcik, M. (2016). Multi-sensor measurements of titanium alloy surface texture formed at subsequent operations of precision machining process. Measurement, 96, 8-17.
 Kang, Y.S., Hager, C.H., Evans, R.D. (2015). Effects of skewed surface textures on lubricant film thickness and traction. Tribology Transactions, 58 (3), 397-406.
 Gherca, A., Fatu, A., Hajjam, M., Maspeyrot, P. (2013). Influence of surface geometry on the hydrodynamic performances of parallel bearings in transient flow conditions. Tribology Transactions, 56 (6), 953-967.
 Sedlaček, M., Gregorčič, P., Podgornik, B. (2017). Use of the roughness parameters Ssk and Sku to control friction-a method for designing surface texturing. Tribology Transactions, 60 (2), 260-266.
 Wang, L., Ouyang, W., Gao, W., Xu, B. (2017). Instrumental evaluation of fabric abrasive wear using 3D surface images. Journal of the Textile Institute, 108 (5), 846-851.
 Lu, W., Zhang, G., Liu, X., Zhou, L., Chen, L., Jiang, X. (2014). Prediction of surface topography at the end of sliding running-in wear based on areal surface parameters. Tribology Transactions, 57 (3), 553-560.
 Masuko, M., Aoki, S., Suzuki, A. (2005). Influence of lubricant additive and surface texture on the sliding friction characteristics of steel under varying speeds ranging from ultralow to moderate. Tribology Transactions, 48 (3), 289-298.
 Eiss, N.S., Bayraktaroglu, M.M. (1980). The effect of surface roughness on the wear of low-density polyethylene. ASLE Transactions, 23 (3), 269-278.
 Shi, X., Wang, L., Qin, F. (2016). Relative fatigue life prediction of high-speed and heavy-load ball bearing based on surface texture. Tribology International, 10, 364-374.
 Trauth, D., Klocke, F., Welling, D., Terhorst, M., Mattfeld, P., Klink, A. (2016). Investigation of the surface integrity and fatigue strength of Inconel718 after wire EDM and machine hammer. International Journal of Material Forming, 9 (5), 635-651.
 Qi, Q., Li, T., Scott, P.J., Jiang, X. (2015). A correlational study of areal surface texture parameters on some typical machined surfaces. Procedia CIRP, 27, 149-154.
 Rosen, B.G., Anderberg, C., Ohlsson, R. (2008). Parameter correlation study of cylinder liner roughness for production and quality control. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 222, 1475-1487.
 Das, J., Linke, B. (2017). Evaluation and systematic selection of significant multi-scale surface roughness parameters (SRPs) as process monitoring index. Journal of Materials Processing Technology, 244, 157-165.
 Franco, L.A., Sinatora, A. (2015). 3D surface parameters (ISO 25178-2): Actual meaning of Spk and its relationship to Vmp. Precision Engineering, 40, 106-111.
 Korzynski, M. (2013). Slide diamond burnishing. In Nonconventional Finishing Technologies. Warsaw, Poland: Polish Scientific Publishers PWN.
 Korzynski, M. (2017). Metodyka eksperymentu [Methodology of Experiment]. Warsaw, Poland: Science Publishing Home. (in Polish)
 Korzynski, M., Lubas, J., Swirad, S., Dudek, K. (2011). Surface layer characteristics due to slide diamond burnishing with a cylindrical-ended tool. Journal of Materials Processing Technology, 211 (1), 84-94.