Repair of Worn-Out Parts of Auger Presses by Surfacing Method
##plugins.themes.bootstrap3.article.main##
In the briquetting process of various finely dispersed materials using the auger pressing method, an important issue is extending the service life and repairing worn-out elements, such as the auger, die, and lining. This study provides a literature review and industrial experience in repairing worn-out parts of industrial presses. It formulates the main approaches for restoring abrasive surfaces and presents the results of experimental studies aimed at prolonging the lifespan of augers in briquette presses using surfacing methods, including using powders obtained from solid alloy waste.
Downloads
Download data is not yet available.
References
-
Vitikka O, Iljana M, Heikkilä A, Tkalenko I, Koriuchev N, Shehovsov D, et al. Suitability of auger pressing briquettes for blast furnace use based on laboratory tests. Minerals. 2022; 12(7):868. doi: 10.3390/min12070868.
DOI |
Google Scholar
1
-
Lurie LA. Briquetting in Metallurgy. Moscow: Metallurgizdat; 1963. Russian.
Google Scholar
2
-
Eltsov VV. Repair welding and surfacing of machine parts: textbook. Togliatti: Togliatti State University Publishing House; 2012 (Russian).
Google Scholar
3
-
Panteleenko FI. Repair of machine parts: textbook. Moscow: Mashinostroenie; 2003. Russian.
Google Scholar
4
-
Zhyukov VA. Operation and repair of equipment: textbook. Kirov: VyatSU Publishing House; 2008. Russian.
Google Scholar
5
-
Sedush VY. Reliability, repair and installation of metallurgical machines. Kiev: Vysha Shkola; 1976 (Russian).
Google Scholar
6
-
Dovgyalo VA. Methods of improving the performance of machines and mechanisms: a course of lectures. Gomel: BGUT Publishing House; 2003. Russian.
Google Scholar
7
-
Tsekov VI. Repair of Metallurgical Equipment Parts: textbook. Moscow: Metallurgiya; 1983. Russian.
Google Scholar
8
-
Xavier SF. Thermoplastic Polymer Composites: Processing, Properties, Performance, Applications and Recyclability, Chapter 2: Filled Polymer Composites. Beverly: Scrivener Publishing LLC; 2022. doi: 10.1002/9781119865544.ch2.
DOI |
Google Scholar
9
-
Ischenko A, Kakareka D, Rassokhin D. Analysis of modern methods for industrial equipment restoration. Bulletin of Priazov State Technical University. Series: Technical Sciences, 2018; 36: 181-186, Mariupol (Russian).
DOI |
Google Scholar
10
-
Ischenko A, Dashko Y. Repair of parts and assemblies of power equipment with composite materials. Mariupol: PGTU; 2016. Russian.
Google Scholar
11
-
Wang YX, Zhang S. Toward hard yet tough ceramic coatings. Surface and Coatings Technology. 2014; 258: 1-16. doi: 10.1016/j.surfcoat.2014.07.007.
DOI |
Google Scholar
12
-
Lee JH, Lee CM, Kim DH. Repair of damaged parts using wire arc additive manufacturing in machine tools. Journal of Materials Research and Technology, 2022; 16: 13-24. doi: 10.1016/j.jmrt.2021.11.156.
DOI |
Google Scholar
13
-
Prysyazhnyuk P, Ivanov O, Lutsak D, Lutsak L. Wear Resistance Improvement of Equipment for Production of Building Ceramics by Hardfacing with Flux-Coerd Electrodes based on Fe-Ti-B-C System. Multidisciplinary Aspects of Production Engineering, 2020; 3: 263-273. doi: 10.2478/mape-2020-0023.
DOI |
Google Scholar
14
-
Li L, Zhang X, Pan T, Liou F. Component repair using additive manufacturing: experiments. The International Journal of Advanced Manufacturing Technology, 2022: 719-732. doi: 10.1007/s00170-021-08265-y.
DOI |
Google Scholar
15
-
Jia X, Yin G, Meng Y, Chen S, Yu G, Yang J, et al. Plasma Transferred Arc Powder Surfacing for Titanium-Clad Steel Plate. J Therm Spray Tech., 2023 Apr. doi: 10.1007/s11666-023-01589-z.
DOI |
Google Scholar
16
Most read articles by the same author(s)
-
Illia Tkalenko,
Alexey Tretyakov,
František Wald,
Analytical Model for Steel Fibre-Reinforced Concrete-Filled Tubular Columns Exposed to Fire , European Journal of Engineering and Technology Research: Vol. 8 No. 1 (2023) -
Illia Tkalenko,
Oleksii Kovtun,
Nikita Koriuchev,
Leonid Platonov,
Daniel Shehovsov,
Recovery of Zn from Auger Press Briquettes Made from Steelmaking Sludge , European Journal of Engineering and Technology Research: Vol. 8 No. 6 (2023)