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REPAIR OF ENGINE RADIATOR BY MEANS OF COLD GAS SPRAYING
Authors:
Kuznetsov Yury Alekseevich1
, Goncharenko Vladimir Vladimirovich1, Kalashnikova
Larisa Valentinovna1, Strebkov Sergey Vasilyevich2, Slobodyuk Aleksey Petrovich2, Bondarev Andrey Vladimirovich2
1Federal State Budgetary Educational Establishment of Higher Education, “Orel State Agrarian University named after N.V. Parakhin”
2Federal State Budgetary Educational Establishment of Higher Education “Belgorod State AgrarianUniversity named after V.Ya. Gorin”
Received: 17 May 2016
Accepted: 15 June 2016
Available online: 30 June 2016
Abstract:
The article is devoted to the performance restoration technology development of the aluminum radiator of tractor «John Deer 7830».
The distinctive feature of the suggested technology is cold gas spraying application, which provides air tightness restoration of the radiator made of thin‐walled aluminum parts and having complicated form that causes troubles to technological operation fulfilment.
The carried out experimental investigations resulted in determining rational technological parameters of gas dynamic spraying: nozzle angle of the facility and the distance from the nozzle exit to the spraying surface, providing optimal mechanical characteristics of the repair coating.
Keywords:
Restoration, operating condition, aluminum radiator, technology, item, gas dynamic spraying, rational technological parameters
References:
[1] Company LLC «Jupiter 9». http://www.jupiter9.ru (accessed April 2016).
[2] Production of DYMET®. http://www.dimet.info/products/index.html (accessed February 2016).
[3] Facility for metal spraying DYMET 405. http://regionfox.ru/katalog/oborudovanie‐dlya‐napyleniya‐metalla/ustanovka‐dlya‐napyleniya‐metalla‐dymet‐405 (accessed 23.05.2016).
[4] S.V. Strebkov, А.P. Slobodyuk, А.V. Bondarev, Efficiency assessment of import substitution of agricultural machinery spare parts, Challenges and opportunities of innovative development of agrotechologies, Materials of the XIX th International scientific and production conference, 24‐26 May 2015, Belgorod, Russia.
[5] S.V. Strebkov, А.P. Slobodyuk, А.V. Bondarev, Restoration of accessory equipment of import machinery, Materials of State Scientific Institution of All Russian Research Technological University, 2014, p.1.
[6] S.V. Strebkov, А.P. Slobodyuk, А.V. Bondarev, Restoration of working capacity of parts of foreign agricultural machinery, Materials of the International distance research and practice conference «Important directions of scientific investigations of the XXIth century: theory and practice»: collection of research papers, Voronezh, Russia, 5 (2014), pp.268‐ 272.
[7] D.А. Gerashhenkov, А.S. Oryshhenko, Alumino‐matrix functional coatings with high microhardness obtained from composite powders of system AL‐SN+AI2O3 by means of Cold Gas Spraying, Questions of material sciences. 5 (2015) 100‐107.
[8] Yu.А. Kuznetsov, V.V. Goncharenko, К.V. Kulakov, Analysis of the equipment for Cold Gas Spraying, Machinery and Equipment for a village. 11 (2013) 40‐44.
[9] М.Е. Avakumov, М.V. Rufitsky, Reliability and quality of coating at application of Cold Gas Spraying method, Materials of the International Symposium Reliability and quality. 2 (2013), pp.112‐113.
[10] P.I. Burak, А.V. Serov, N.V. Serov, Review of research in the field of Cold Gas Spraying, Materials of State Scientific Institution of All Russian Research Technological University. 114 (2014) 169‐174.
[11] A.P. Alkimov, A.N. Papyrin, V.F. Kosarev, N.I. Nesterovich, М.M. Shushpanov, Gas dynamic spraying method for applying a coating, U.S. Patent 5 302 414, 12 April 1994.
[12] Yu.A. Kusnetsov, Resource saving technologies of gas thermal spraying at machine repair, Vestnik Orel SAU. 1 (2009) 13‐15.
[13] L.Kh. Baldaev, V.N. Borisov, V.A. Vakhalin, Gas thermal spraying: workbook for higher edicational establishments, Under the general editorship of L. Kh. Baldaev, Russia, Market DS, 2007.
[14] A.I. Kashirin, A.V. Shkodkin, Method of gas dynamic spraying of metal coatings: development and modern state, Hardening technologies and coatings. 12 (2007) 22‐32.
[15] A.P. Alkhimov, S.V. Klinkov, V.F. Kosarev, Cold gas dynamic spraying, Theory and practice, Under the editorship of V. M. Fomin, Russia, 2010.
[16] Yu.A. Kusnetsov, V.V. Goncharenko, К.V. Kulakov, Innovative methods of gas thermal spraying of coatings, Publishing house Orel SAU, Russia, 2011.
[17] D. Milošević, Ž. Adamović, A. Ašonja, Diagnosis and forecasting the state machine the power and thermal plants, Tehnička dijagnostika. 13 (2014) 7‐12.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)
Volume 10
Number 3
September 2025
Last Edition
Volume 10
Number 3
September 2025
How to Cite
Y.A. Kuznetsov, V.V. Goncharenko, L.V. Kalashnikova, S.V. Strebkov, A.P. Slobodyuk, A.V. Bondarev, Repair of Engine Radiator by Means of Cold Gas Spraying. Applied Engineering Letters, 1(2), 2016: 57-60.
More Citation Formats
Kuznetsov, Y.A., Goncharenko, V.V., Kalashnikova, L.V., Strebkov, S.V., Slobodyuk, A.P., & Bondarev, A.V. (2016). Repair of Engine Radiator by Means of Cold Gas Spraying. Applied Engineering Letters, 1(2), 57-60.
Kuznetsov, Yury Alekseevich, et al. “Repair of Engine Radiator by Means of Cold Gas Spraying.“ Applied Engineering Letters, vol. 1, no. 2, 2016, pp. 57-60.
Kuznetsov, Yury Alekseevich, Vladimir Vladimirovich Goncharenko, Larisa Valentinovna Kalashnikova, Sergey Vasilyevich Strebkov, Aleksey Petrovich Slobodyuk, and Andrey Vladimirovich Bondarev, 2016. “Repair of Engine Radiator by Means of Cold Gas Spraying.“ Applied Engineering Letters, 1 (2): 57-60.
Kuznetsov, Y.A., Goncharenko, V.V., Kalashnikova, L.V., Strebkov, S.V., Slobodyuk, A.P. and Bondarev, A.V. (2016). Repair of Engine Radiator by Means of Cold Gas Spraying. Applied Engineering Letters, 1(2), pp. 57-60.
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Archive
REPAIR OF ENGINE RADIATOR BY MEANS OF COLD GAS SPRAYING
Authors:
Kuznetsov Yury Alekseevich1
, Goncharenko Vladimir Vladimirovich1, Kalashnikova
Larisa Valentinovna1, Strebkov Sergey Vasilyevich2, Slobodyuk Aleksey Petrovich2, Bondarev AndreyVladimirovich2
1Federal State Budgetary Educational Establishment of Higher Education, “Orel State Agrarian University named after N.V. Parakhin”
2Federal State Budgetary Educational Establishment of Higher Education “Belgorod State AgrarianUniversity named after V.Ya. Gorin”
Received: 17.05.2016.
Accepted: 15.06.2016.
Available online: 30.06.2016.
Abstract:
The article is devoted to the performance restoration technology development of the aluminum radiator of tractor «John Deer 7830».
The distinctive feature of the suggested technology is cold gas spraying application, which provides air tightness restoration of the radiator made of thin‐walled aluminum parts and having complicated form that causes troubles to technological operation fulfilment.
The carried out experimental investigations resulted in determining rational technological parameters of gas dynamic spraying: nozzle angle of the facility and the distance from the nozzle exit to the spraying surface, providing optimal mechanical characteristics of the repair coating.
Keywords:
Restoration, operating condition, aluminum radiator, technology, item, gas dynamic spraying, rational technological parameters
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)
Volume 10
Number 3
September 2025
Last Edition
Volume 10
Number 3
September 2025