Abstract
The cross-sectional curvature and shape (inner and outer) of a cylindrical surface formed by turning have an effect on the roughness parameter—the arithmetic mean deviation of the Ra profile. The main regularities in this influence are analyzed in this article. The authors investigated specially designed test specimens using their own method, which excludes the influence of other parameters on the roughness forming process. The diameters of the cylindrical surfaces of test specimens were selected taking into account the spindle rotation speed of the lathe. As a result, these surfaces were machined at practically the same cutting speed when performing the final processing step. The Grebbs criterion was used to evaluate the uniformity of surface roughness obtained experimentally.
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ISO 8785 Surface Imperfections-Terms, Definitions, and Parameters. International Organization for Standardization, Geneva, Switzerland, 20 p (1998)
Grzesik, W.: Advanced Machining Processes of Metallic Materials. Elsevier, Amsterdam (2008)
Boothroyd, G.; Knight, W.A.: Fundamentals of Machining and Machine Tools. CRC Press, Boca Raton (2006)
Filonenko, S.N.: Metal Cutting, p. 232. Technika, Kiev (1975)
Kryvyi, P.D.; Kobelnyk, V.R.: Transformation of plasticity of the cut layer during drilling. In: Tool Reliability and Technological Systems Optimization, Sci. Papers Coll., Kramatorsk, vol. 25, pp. 15–25 (2009)
Das, J.; Linke, B.: Evaluation and systematic selection of significant multi-scale surface roughness parameters (SRPs) as process monitoring index. J. Mater. Process. Technol. 244, 157–165 (2017)
Grzesik, W.: Generation and modelling of surface roughness in machining using geometrically defined cutting tools. In: Davim, J.P. (ed.) Metal Cutting, chapter 6. Nova Science Publishers, New York (2010)
Thomas, T.R.: Rough surfaces. Longman Inc., New York (1982)
Rao, P.N.: Manufacturing Technology: Metal Cutting and Machine Tools. Tata McGraw-Hill Education, New York (2013)
Shaw, M.C.: Metal Cutting Principles, pp. 487–519. Oxford University Press, Oxford (1984)
Toulfatzis, A.I.; Pantazopoulos, G.A.; David, C.N.; Sagris, D.S.; Paipetis, A.S.: Machinability of eco-friendly lead-free brass alloys: cutting-force and surface-roughness optimization. Metals 8, 250 (2018). https://doi.org/10.3390/met8040250
Bartarya, G.; Choudhury, S.K.: Influence of machining parameters on forces and surface roughness during finish hard turning of EN 31 steel. Proc. Inst. Mech. Eng. B J. Eng. Manuf. 228, 1068–1080 (2014)
Benardos, P.G.; Vosniakos, G.C.: Predicting surface roughness in machining: a review. Int. J. Mach. Tools Manuf. 43, 833–844 (2003)
Xiao, M.; Shen, X.; Ma, Y.; Yang, F.; Gao, N.; Wei, W.; Wu, D.: Prediction of surface roughness and optimization of cutting parameters of stainless steel turning based on RSM. Math. Prob. Eng. Article ID 9051084 (2018) https://doi.org/10.1155/2018/9051084
Feng, C.X.J.; Wang, X.: Development of empirical models for surface roughness prediction in finish turning. Int. J. Adv. Manuf. Technol. 20, 348–356 (2002)
Fang, N.; Srinivasa Pai, P.: Evaluation and modeling of the effect of tool edge radius on machined surface roughness in turning UNS A92024-T351 aluminum alloy. J. Test. Eval. (in press). ISSN 0090-3973. https://doi.org/10.1520/JTE20180279
Patent No. 129762 A method of measuring the roughness of a cylindrical surface, Kryvyi, P.D.; Dzyura, V.O.; Apostol, Yu.O.; Tymoshenko, N.M.: Application. 05.14.2018, Publ. 12.11.2018, Bul. no. 21, 5 p
Kryvyi, P.D.; Dzyura, V.O.; Tymoshenko, N.M.; Krypa, V.V.: Technological heredity and accuracy of the cross-section shapes of the hydro-cylinder cylindrical surfaces. In: Proceedings of the ASME 2014 International Manufacturing Science and Engineering Conference Collocated with the JSME 2014 International Conference on Materials and Processing and the 42nd North American Manufacturing Research Conference, Detroit, MI, USA, 9–13 June 2014, p. 2, Paper No. MSEC2014-3946. https://doi.org/10.1115/msec2014-3946.
Khan, G.; Shapiro, S.: Statistical Models in Engineering Problems, p. 395. Mir, Moscow (1969)
Kolker, Y.D.: Mathematical analysis of machine parts working accuracy. Kiev, Technika (1976)
Dzyura, V.O.; Maruschak, P.O.; Zakiev, I.M.; Sorochak, A.P.: Analysis of inner surface roughness parameters of load-carrying and support elements of mechanical systems. Int. J. Eng. Trans. B: Appl. 30, 1170–1175 (2017)
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Kryvyi, P., Dzyura, V., Maruschak, P. et al. Influence of Curvature and Cross-sectional Shape of Cylindrical Surface Formed by Turning on Its Roughness. Arab J Sci Eng 45, 5615–5622 (2020). https://doi.org/10.1007/s13369-020-04512-8
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DOI: https://doi.org/10.1007/s13369-020-04512-8