Abstract
Friction treatment is one of the surface hardening methods with the use of highly concentrated energy sources. During the friction treatment, the surface metal layer in the contact area of the tool with the part heated at high speeds to temperatures above the phase transformation point. After moving the tool, the contact area cooled very rapidly. The researches carried out showed that a hardened nanocrystalline layer is formed in the surface layer in the course of frictional hardening of cast-iron parts. The layer thickness is 90–120 μm, and the microhardness is 7–8 GPa. The grain size of the hardened layer was 20–40 nm near the treated surface. The test of geometrical parameters and hardened surfaces quality parameters showed that all dimensions and the roughness of the surfaces were in accordance with the drawing and specifications for the parts. The conducted bench studies showed that the friction hardening of the basic parts of the technological equipment (guideways) increases the wear resistance at friction with boundary lubrication of 1.8–2.2 times in comparison with the guideways manufactured using factory technology.
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References
Colas, R., Totten, G.E.: Encyclopedia of Iron Steel and Their Alloys. Activities-Cast Iron. CRC Press Taylor & Francis Group, Boca Raton (2016)
Wear of cast irons: In: Totten, G.E. (ed.) Friction, Lubrication, and Wear Technology, vol. 18. ASM International, Cleveland (2017)
Pekelis, G.D., Gelberg, B.T.: Technology of Metal Cutting Mashine Repair. Mashynostroenie, Leningrad (1984)
Oh, H., Lee, S., Jung, J.-Y., Ahn, S.: Correlation of microstructure with the wear resistance and fracture toughness of duocast materials composed of high-chromium white cast iron and low-chromium steel. Metall. Mater. Trans. A 32 A, 515–524 (2001)
Hutchings, I., Shipway, P.: Tribology: Friction and Wear of Engineering Materials. Elsevier, Butterworth-Heinemann, Oxford (2017)
Drozdov, Yu.N., Pavlov, V.G., Puchkov, V.N.: Friction and Wear in Extreme Conditions. Handbook. Mashinostroyeniye, Moskva (1986)
Vlasov, V.M.: Operability hardened friction surfaces. Mashinostroyeniye, Moskva (1987)
Rudnev, V., Loveless, D., Cook, R.L.: Handbook of Induction Heating. CRC Press, London (2017)
Minakov, A.P., Yushkevich, N.M., Kamchitskaya, I.D., Ilyushina, Y.V., Zaitsev, D.L.: Analysis of methods to improve wear resistance of bedways of mashine tools. Bull. Belarusian-Russ. Univ. 3(52), 40–50 (2016)
Chyr, I., Jachymek, M., Hurey, I., Gurey, V., Shynkarenko, H.: Computer simulation of friction hardering of superficial layers of machine details. In: Gajek, M., Hachkewych, O., Stanik-Besler, A. (eds.) Manufacturing Processes. Some Problems. Basic Science Applications, vol. 1, pp. 49–62. Politechnika Opolska, Opole (2012)
Hurey, I., Gurey, V., Dmyterko, P., Babiarz, R.: The research in to components of friction force tool part during friction hardening of plate steel faces. Adv. Manuf. Sci. Technol. 3, 56–64 (2014)
Evdokimov, V.D., Klimenko, L.P., Evdokimova, A.N.: Technology of Hardening of Machine Building Materials. NSGU, Odesa-Mykolaiv (2005)
Yushchenko, K.A., Borisov, YuS, Kuznetsov, V.D., Korzh, V.M.: Surface Engineering. Naukova dumka, Kyiv (2007)
Sawke, K., Kamble, P., Patil, S.B.: To study the effect of laser cladding of cast iron with silicon carbide on wear rate. Int. J. Mech. Prod. Eng. 5(5), 121–123 (2017)
Cappellini, C., Attanasio, A., Rotella, G., Umbrello, D.: Formation of white and dark layers in hard cutting: influence of tool wear. Int. J. Mater. Form. 1(3), 455–458 (2010)
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Gurey, V., Hurey, I. (2020). The Effect of the Hardened Nanocrystalline Surface Layer on Durability of Guideways. In: Tonkonogyi, V., et al. Advanced Manufacturing Processes. InterPartner 2019. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-40724-7_7
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DOI: https://doi.org/10.1007/978-3-030-40724-7_7
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