Study of surface layers obtained by copper ion implantation into a target of steel 30хгÑн2а by auger Spectroscopy methods
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2018-04-15 https://doi.org/10.14419/ijet.v7i2.13.11606 -
Implantation, Auger Spectroscopy, Tribological Properties, Surface Layers, Carbon Steel, Wear, Copper Content. -
Abstract
The relevance of the study due to the necessity of increase in the wear resistance of the tribological parts from steel 30ХГСÐ2Ð through the copper ions implantation. The leading method for investigating this problem is the examination of the implanted layers of the target surface made of steel 30ХГСÐ2Ð by means of auger spectroscopy making it possible to review the structure and distribution of the implanted ions comprehensively. The article presents the study results of copper, carbon and oxygen distribution regularities in the surface layers formed during copper implantation into the plates from steel 30ХГСÐ2Ð in the impulsive ions source. It has been established that in the process of copper implantation, a carbon layer with a thickness of ~ 50 nm is formed on the surface. It is shown that in the intermediate layer (up to 100 nm), the iron is partly in the oxidized condition. The possible mechanisms of the influence of surface layers structure formed in the result of copper implantation into the steel plate 30ХГСÐ2Ð on their tribological characteristics are presented. The article materials are of practical value in developing the technology for wear resistance increase of the various parts of the revolution shape used in aircraft movable joints.
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References
[1] Bykovsky Yu. A., Nevolin V. N., Fominsky V. Yu. Ion and Laser Implantation of Metallic Materials. - M.: Energoatomizdat, 1991. 237 p.
[2] 2. Ion implant/under the editorship of J. К. Hirvonen: Transl. from English: – М. Metallurgy, 1985. 392 p.
[3] Ion Doping of Semiconductors: Transl. from English/ J. Meyer, L. Eriksson, J. Davis; Under the editorship of Ph.D. in Physics and Mathematics Guseva V.M. - Moscow: Mir, 1973. -296 p.
[4] Guseva M.I. Ion Implantation in Metals.// Surface. Physics, Chemistry, Mechanics. 1982. -No. 4. - p. 27-50.
[5] Didenko A.N., Ligachev A.E., Kurakin I.E. Effects of Charged Particles Beams on the Surface of Metals and Alloys. -M.: Energoatomizdat, 1987. - 184 p.
[6] Komarov F.F. Ion implantation into metals. -M.: Metallurgy, 1990. -216 p.
[7] Bykovsky Yu. A., Nevolin V. N., Fominsky V. Yu. Ion and Laser Implantation of Metallic Materials. - M.: Energoatomizdat, 1991. -237 p.
[8] Wilbur P.J., Davis J.A., Williamson D.L. et al. High current density broad-beam boron ion implantation//surf. Coat. Techn. 1997. -V. 96. -P. 52-57.
[9] Ovchinnikov V. V., Kozlov D. A., Yakutina S. V. The Influence of the Copper Ion Implantation on the Properties of the Structural Steel 30ХГСÐ2Ð.// Strengthening Technology and Coatings. 2009. - No.10 p.16-23
[10] Ovchinnikov V. V., Kozlov D. A., Yakutina S. V. The Study of the Surface Properties of Steel 30хгÑн2а After Copper Ion Implantation. // Mechanical Industry and Engineering Education. 2009. – No. 2. – P. 32–37.
[11] Yakutina S. V., Ovchinnikov V. V. Kozlov D. A., Nemov A. S. Effect of Copper and Lead Ions Implantation on Steel 30ХГСÐ2Ð Properties. // Mechanical Industry And Engineering Education, 2010. No. 4. P.38–45.
[12] Ovchinnikov V. V. Kozlov D. A., Krit B. L., Stolyarov V. V. Ion-Beam Modification of Tribological Properties of Chromium Steel. // Physics and Chemistry of Materials Processing. 2010. No. 1. P.50–53.
[13] Semendeeva O.V., Uchevatkina N.V., Ovchinnikov V.V. Metallurgical and Technological Features of Titanium Alloys Implantation.// Mechanical Engineering and Engineering Education. -No. 2.-c. 17-28.
[14] Yakutina S. V., Ovchinnikov V. V. Kozlov D. A., Nemov A. S. Properties and Composition of the Steel 30ХГСÐ2Ð Surface Depending on the Irradiation Dose by Copper and Lead Ions. // News of Moscow State Industrial University. 2010. – â„–3(20). – S. 15–20.
[15] 6. Sharkeev Yu.P., Ryabchikov A.I., Kozlov E.V., Kurzina I.A., Stepanov I. B., Bozhko I.A., Kalashnikov M.P., Fortuna S.V., Sivin D. O. High-Intensity Ion Implantation – Method of Forming Finely Dispersed Intermetallides in Surface Layers of Metals. // Izvestiya Vuzov. Physics. 2004. - No. 9. - p. 44-52.
[16] Prinyavichyus L., Dudonis Yu. Modification of Solid Bodies Properties by Ion Beams. Vilnius: Mokslas, 1980. – 242 p.
[17] 8. Byeli, A.V., Kukareko V.A., Lobodaeva O.V. et al. Ion-Beam Processing of Metals, Alloys And Ceramic Materials. Minsk: Institute of Physics and Technology, 1998. -220 p.
[18] Ovchinnikov V. V., Yakutina S. V., Kozlov, D. A. The Influence of Copper and Lead Ions Sequence on Their Distribution in the Surface Layer of Steel 30ХГСÐ2Ð.// Strengthening Technologies And Coatings - 2011. -No.12 - p. 26-31.
[19] Didenko A.M., Ligachev, A.E., and Kurakin, K.B. Impact of Charged Particle Beams on the Surface of Metals and Alloys. – M.: Energoatomizdat, 1987. - 184 p.
[20] Borovin Yu.M., Ovchinnikov V.V. Ion Implantation of Surface Layers of Machine Parts.// High Technologies In Mechanical Engineering. 2011. – No. 6. – P. 29-39.
[21] Ovchinnikov V. V., Serikova E. A., Yakutina S. V. The Influence of Implantation by Monotectic Copper Alloy with Lead, Additionally by Alloyed Tin on the Wear Resistance of Steel 30HGSN2A.// Strengthening Technologies and Coatings. 2012. No.4. P. 27-31.
[22] Lukyanenko E. V., Ovchinnikov V. V., Borodin Y. M., S. V. Akhutina The Influence of Contact Monotectic Alloy Cu-Pb Used for the Manufacture of the Cathode Implanter on the Distribution of Implantable Ions in the Surface Layer of Steel 30ХГСÐ2Ð.// High Technology in Mechanical Engineering, 2013. No.2. -P. 3-8.
[23] Ovchinnikov V. V., Borodin Y. M., Luk'yanenko, E. V., Lishchuk S. A. Wear Resistance of Parts Made of Steel 30ХГСÐ2Ð Subjected to Ion Implantation After Ultrasonic Processing. // Blank Productions in Mechanical Engineering. 2014. No.9. – P. 40-44.
[24] Ovchinnikov V. V., Borodin Y. M., Luk'yanenko, E. V., Yarnykh, A. A. Improvement of Wear Resistance of Steel 30ХГСÐ2Ð by Implantation of Nitrogen Ions and Metals Ions. // Materials Science. 2014. No. 11. P. 30 – 35.
[25] Yarnykh, A. A., Borodin Y. M., Ovchinnikov V. V., Makeev, Yu. A. Study of the Multielemental Ion Implantation features Using Composite Cathodes Copper-Lead. //Metal Technology. 2014. No.12. - p. 29-35.
[26] Kostrjitskiy A. I., T. V. Cheban, R. A. Podolyan, Oxide Films on Iron Surface and their Physical and Chemical Properties. // Electronic Processing of Materials. – 2007. – No. 3. – p. 50-55.
[27] Belov M. I., Ovchinnikov V. V., Lukyanenko E. V., Yakutina S.V. Modeling of the Distribution of Ion-Implanted Atoms in the Metal Targets. // Electrometallurgy. 2016. – No. 11. – p. 31–41.
[28] Ovchinnikov V.V., Borovin Yu.M. Ion Implantation of Surface Layers of Machine Parts. // High Technologies in Mechanical Engineering. 2010. – No.6. – P. 29-39.
[29] This article has been made within the framework of the government order No.11.3560.2017/PCh.
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How to Cite
V.V., O., Yu.M., B., I.A., K., E.V., L., N.V., U., & S.V., Y. (2018). Study of surface layers obtained by copper ion implantation into a target of steel 30хгÑн2а by auger Spectroscopy methods. International Journal of Engineering & Technology, 7(2.13), 93-102. https://doi.org/10.14419/ijet.v7i2.13.11606Received date: 2018-04-15
Accepted date: 2018-04-15
Published date: 2018-04-15