DEVELOPMENT OF A TECHNOLOGY FOR COATING STEEL MATERIALS WITH A NANOCOMPOSITE METAL COATING THAT INCREASES WEAR RESISTANCE AND CORROSION RESISTANCE.
Abstract
Nowadays, the application of multilayer coatings is widely used to increase the abrasion resistance of cutting tools. Before applying the multilayer coating, the selected cutting tool was purified in a bath with a disc cutting surface from quick-cutting steel and carried out the process of ion-nitriding or chemical-thermal treatment. In this case, nitrogen and argon ions diffuse over the surface of the disc cutter. Ion alloying using low-energy high-precision electron beams followed this process. The processing was carried out on a single-chamber two-system magnetron installation “RITM-SP-M”. Finishing was carried out by disc milling with Swiss Platit π311 ((TiCr)N-(TiAl)N-(CrAlSi)N+ion nitriding, (TiCr)N-(TiAl)N-(CrAlSi)N(Natcro3)), (TiAl)N+ion nitriding + ion alloying (NbHf), (TiAl)N, (TiAl)N+ion nitriding, diamond-like coatings).Such multilayer coatings were tested at the Navoi mining and metallurgical plant“Navoi machine-building plant”. Machined disc cutters have been tested on 34XH1MA which is difficult to machine.
References
[1] S.N. Grigoriev, Yu. A. Melnik, A.S. Metel, M.A. Volosova, Focused beams of fast neutral atoms in glow discharge plasma editors-pick, J. Appl. Phys. 121 (2017) 223-302
[2] S.N. Grigoriev, T.V. Tarasova, Possibilities of the technology of additive production for making complex-shape parts and depositing functional coatings from metallic powders, Metal Sci Heat Treatment 57 (2016) 579-584
[3] O.R. Hachkevych, B.D. Drobenko, P.I. Vankevych, M. Yu. Yakovlev, Optimization of the high-temperature induction treatment modes for nonlinear electroconductive bodies, Strength Mater. 49 (2017) 429-435
[4] I. Smurov, M. Doubenskaia, S. Grigoriev, A. Nazarov, Optical Monitoring in Laser Cladding of Ti6Al4V, J.Thermal Spray Technol 21 (2012) 1357-1362
[5] S.V. Fedorov, A.A. Okunkova, N.Y. Peretyagin, P.Y. Peretyagin, Electroconductive graphene-hydroxyapatite PVD targets for magnetron sputtering, Izv. vyshih uchebnyh zaved. Fiz. 59 (2016) 192-194.
[6] M.M. Stebulyanin, A.A. Gurkina, A.A. Shein, N.Y.Cherkasova, Measuring adhesive bond strength and micro-hardness of multilayer composite wear-resistant coating, Mech. & Ind. 17 (2016) 712.
[7] Q.M. Mehran, M.A. Fazal, A.R. Bushroa, S. Rubaiee, A Critical Review on Physical Vapor Deposition Coatings Applied on Different Engine Components, Crit. Rev. Solid State Mater. Sciences (2017) 1-18
[8] W.C. Guo, G. Rauchs, L. Papeleux, W.H. Zhang, F.Gitzhofer, J.-P. Ponthot, Evaluation of the mechanical properties of plasma-sprayed coating by nanoindentation technology, Mech. & Ind. 13 (2012) 151-162
[9] J. Zhang, Zh. Wang, M. Li, Z. Wang, T. Li, Zh. Wang, Evaluation of adhesion and mechanical properties of plasma sprayed NiCrAl/Al2O3-13wt.%TiO2 coatings, J. Adhes. Sci. Technol. (2017) 1-15
[10] S. Atlati, A. Moufki, M. Nouari, B. Haddag, Interaction between the local tribological conditions at the tool-chip interface and the thermomechanical process in the primary shear zone when dry machining the aluminum alloy AA2024-T351, Tribol. Int. 105 (2017) 326-333
[11] M.S.I. Chowdhury, S. Chowdhury, K. Yamamoto, B.D. Beake, B. Bose, A. Elfizy, D. Cavelli, G. Dosbaeva, M.Aramesh, G.S. Fox-Rabinovich, S.C. Veldhuis, Wear behaviour of coated carbide tools during machining of Ti6Al4V aerospace alloy associated with strong built up edge formation, Surf. Coat. Technol. 313 (2017) 319-327
[12] Zh. Pan, Y. Feng, S.Y. Liang, Material microstructure affected machining: a review, Manuf. Rev. 4 (2017)
[13] M. Azadi, A.S. Rouhaghdam, S. Ahangarani, Mechanical Behavior of TiN/TiC-n Multilayer Coatings and Ti(C, N) Multicomponent Coatings Produced by PACVD, Strength Mater. 8 (2016) 279-289
[14] V.V. Kuzin, M. Yu. Fedorov, M.A. Volosova, Nitride ceramic surface layer stressed state transformation with a change in TiC-coating thickness. Stress distributed force load version. Refract. Ind. Ceram. 57 (2017) 551-556
[15] S.N. Grigoriev, Study of cutting properties and wear pattern of carbide tools with comprehensive chemical-thermal treatment and nano-structured/gradient wear-resistant coatings, Mech. & Ind. 17 (2016) 702
[16] S.N. Grigoriev, A.S. Metel, M.A. Volosova, Y.A. Melnik, Surface hardening by means of plasma immersion ion implantation and nitriding in glow discharge with electro-static con fi nement of electrons, Mech. & Ind. 16 (2015) 711
[17] J. Tomastik, R. Ctvrtlik, Nanoscratch test a tool for evaluation of cohesive and adhesive properties of thin films and coatings, EPJ Web Conf. 48 (2013) 00027
[18] M.M. Quazi, M. Ishak, A. Arslan, M. Nasir Bashir, I. Ali, Scratch adhesion and wear failure characteristics of PVD multilayer CrTi/CrTiN thin film ceramic coating deposited on AA7075-T6 aerospace alloy, J. Adhes. Sci. Technol. 0 (2017)
[19] Ж.О. Шарипов. Инновационные методы повышения стойкости режущего инструмента при сложной обработке поверхности. 2023/8/20. https://doi.org/10.1007/978-981-99-4189-6
[20] ЖО Шарипов, СВ Фёдоров. Повышение стойкости поверхности зубцов дисковых фрез методом комплексной обработки. Инженерные решения. 2020. №5. Ст. 9-11
[21] J.O. Sharipov. Increasing wear resistance by applying a coating to the part and cutting tool during complex processing of tooth surfaces. Proceedings of Sixth International Conference on Inventive Material Science Applications.
