| Название |
Analysis of the influence of wear of working parts on the efficiency of crushing process in a hammer crusher |
| Информация об авторе |
Donbass State Technical University, Alchevsk, Russia
D. A. Vlasenko, Cand. Eng., Associate Prof., Dept. of Metallurgical Technologies, e-mail: VlsnkDA@yandex.ru
Lipetsk State Technical University, Lipetsk, Russia
A. A. Kharitonenko, Cand. Phys.-Math., Associate Prof., Dept. of Metallurgical Equipment, e-mail: aax.in@mail.ru
A. L. Chelyadina, Senior Lecturer, Dept. of Metallurgical Equipment, e-mail: mo@stu.lipetsk.ru
Lipetsk State Technical University, Lipetsk, Russia1 ; NLMK, Lipetsk, Russia2
A. V. Bocharov, Associate Prof., Dept. of Metallurgical Equipment1, Specialist of the Dept. of Personnel Training and Development2, e-mail: alor_fr@mail.ru
Lipetsk State Technical University, Lipetsk, Russia1 ; SMS Group Ltd., Lipetsk, Russia2
M. A. Shipulin, Associate Prof., Dept. of Metallurgical Equipment1, Deputy Chief Engineer2, e-mail: mikhail.shipulin2@sms-group.com |
| Реферат |
The results of the analysis of the effect of wear of the main working bodies on the efficiency of the crushing process in a hammer rotary crusher are presented. In the production conditions of the charge preparation section of the agglomeration shop of the Alchevsk Metallurgical Combine LLC "YuGMK", the degree of influence of the limiting technical condition of the wear of the working surface of the hammer strikers, grate grate and jack plate on the degree of crushing of agglomeration fluxes and the relative productivity of the hammer rotary crusher DMRiE 14.5×13 was determined. Based on the results of experimental studies of the crushing process of blast furnace limestone, it was found that after replacing a complete set of hammers, when the wear limit of their working surfaces of the strikers is reached, the degree of crushing of agglomeration fluxes and the relative productivity of the crushing complex increases by an average of 1.7 and 2.3 times, respectively; after replacing a set of grate grates, these indicators increase by 2.1 and 2.5 times, and after replacing the bump plate – by 1.1 and 1.2 times. At the same time, it is noted that the technical condition of the working surface of the impact working bodies and the grate has the greatest impact on the efficiency of the crushing process of the material in the hammer crusher. |
| Библиографический список |
1. Korotich V. I., Frolov Yu. A., Bezdezhsky T. N. Agglomeration of ore materials. Scientific publication. Ekaterinburg : GOU VPO "UGTU-UPI", 2003. 400 p.
2. Frolov Yu. A. Agglomeration: technology, heat engineering, management, ecology. Moscow : Metallurgizdat, 2016. 672 p.
3. Bhagat R. P. Agglomeration of iron ores. Boca Raton : CRC Press, 2019. 438 p. DOI: 10.1201/9781315269504
4. Fernández González D., Piñuela-Noval J., Verdeja L. Iron ore agglomeration technologies provisional chapter iron ore agglomeration technologies. Iron Ores and Iron Oxide Materials. IntechOpen, 2018. pp. 61–80. DOI: 10.5772/intechopen.72546
5. Vlasenko D. A., Levchenko E. P. Mathematical modeling and increasing the efficiency of impact rotary crushers with a combined hammer suspension. Alchevsk : DonSTU, 2020. 143 p.
6. Vlasenko D. A. Theoretical aspects of modeling and practice of improving hammer crushers with a combined suspension of hammers : monograph. Kursk : Universalnaya kniga, 2022. 143 p.
7. Zhiltsov A. P., Vlasenko D. A., Levchenko E. P. Research and substantiation of structural and technological parameters of the process of grinding agglomeration fluxes in a hammer mill. Chernye Metally. 2019. No. 10. pp. 4–10.
8. Vlasenko D. A. Evaluation of the efficiency of a hammer crusher with combined methods of hanging hammers on the rotor. Stal. 2023. No. 8. pp. 41–45.
9. Vlasenko D. A., Levchenko E. P., Zhiltsov A. P. et al. Crushing equipment of ferrous metallurgy enterprises. Design and calculation : tutorial. Lipetsk : Izdatelstvo Lipetskogo gosudarstvennogo tekhnicheskogo universiteta, 2023. 140 p.
10. Klushantsev B. V., Kosarev A. I., Muyzemnek Yu. A. Crushers. Design, calculation, operating features. Moscow : Mashinostroenie, 1990. 320 p.
11. Sergo E. E. Crushing, grinding and screening of minerals. Moscow : Nedra, 1985. 285 p.
12. Perov V. A., Andreev S. E., Bilenko L. F. Crushing, grinding and screening of minerals. Moscow : Nedra, 1990. 301 p.
13. Petrov A. A. Increasing the reliability of the working parts of hammer-type feed crushers : thesis of inauguration of Dissertation … of Candidate of Engineering Sciences. Orenburg : OGAU, 2007. 17 p.
14. Bespoldenov R. V., Fedorenko I. Ya., Zemlyanukhina T. N. et al. Mechanical and physical aspects of the theory of interaction between a crusher hammer and an air-grain layer. Journal of Physics: Conference Series. Uzbekistan : IOP Publishing Ltd, 2023. pp. 1–5. DOI: 10.1088/1742-6596/2573/1/012011
15. Xin Qin Wang. The Failure analysis and the innovative design of hammer head on hammer crusher based on TRIZ theory. Applied Mechanics and Materials. 2015. Vol. 741. pp. 85–90. DOI: 10.4028/www.scientific.net/AMM.741.85
16. Vlasenko D. A., Levchenko E. P., Bilan G. A. Mathematical modeling of the wear process of hammers when crushing material with a free impact. Vestnik Donetskogo natsionalnogo tekhnicheskogo universiteta. 2019. No. 1 (15). pp. 8–16.
17. Abilzhanuly T., Iskakov R., Abilzhanov D. et al. Determination of the average size of preliminary grinded wet feed particles in hammer grinders. Eastern-European Journal of Enterprise Technologies. 2023. Vol. 1, Iss. 121. pp. 34–43. DOI: 10.15587/1729-4061.2023.268519
18. Moiseev O. N. Forecasting the service life of crusher hammers to improve the efficiency of their operation : thesis of inauguration of Dissertation … of Candidate of Engineering Sciences. Zernograd : AChGA, 1998. 20 p.
19. Ibrahim М., Omran M., Abd EL-Rhman E. Design and evaluation of crushing hammer mill. Journal of Agricultural Engineering. 2019. Vol. 36, Iss. 4. pp. 1041–1056.
20. GOST 7090–72. Single-rotor hammer crushers. Specifications. Introduced: 01.01.1973.
21. Qin R., Fang H., Liu F. Study on Physical and Contact Parameters of Limestone by DEM. IOP Conference Series: Earth and Environmental Science. 2019. Vol. 252, Iss. 5. DOI: 10.1088/1755-1315/252/5/052110
22. Technical Specification TU U 14.1-00191856-008:2007. Flux limestone. Introduced: 16.02.2007.
23. Governing normative document RD 14-16-4-90. Guidelines for determining the granulometric composition of flux limestones using the sieve analysis method. Introduced: 01.01.1991.
24. GOST 29329–92. Balance for static weighing. General technical requirements. Introduced: 01.01.1994.
25. GOST 8.520–84. State system for ensuring the uniformity of measurements. General purposes balances and reference balances. Rules and procedure for verification (as amended). Introduced: 25.12.1984.
26. Kusenkova L. I., Lapteva V. G., Kolmakov A. G. et al. Test methods for friction and wear : Reference manual. Moscow : Intermet inzhiniring, 2001. 152 p.
27. Malyukh V. N. Introduction to modern CAD : course of lectures. Moscow : DMK Press, 2010. 192 p.
28. Kim Jae-on., Mueller C. W. Introduction to factor analysis. SAGE, 1978. 79 p.
29. Gatapova N. Ts. et al. Fundamentals of the theory and technology of physical modeling and experiment : textbook. Tambov : Izdatelstvo TGTU, 2014. 77 p.
30. Bazhin A. A. Study of wear of working parts of hammer crushers. Improving agricultural energy performance. Kirov : Vyatka State Agricultural Academy, 2008. Iss. 8. pp. 18-20.
31. Zubarev Yu. M. Fundamentals of reliability of machines and complex systems : textbook. 2nd edition, stereotypical. Saint Petersburg : Lan, 2020. 180 p.
32. Tylkin M. A. Handbook of thermist repair service. Moscow : Metallurgiya, 1981. 659 p.
33. Grebenik V. M., Tsapko V. K. Reliability of metallurgical equipment (assessment of operational reliability and durability). Reference book. Moscow : Metallurgiya, 1980. 343 p.
34. Temporary regulations on maintenance and repair of mechanical equipment of enterprises of the USSR Ministry of Ferrous Metallurgy. Moscow : Technical Department of the Ministry of Ferrous Metallurgy of the USSR VNIIOChermet, 1983. 389 p.
35. Brownlee K. A. Statistical theory and methodology in science and engineering. Translated from English. Moscow : Nauka, 1977. 407 p.
36. Vlasenko D. A. Justification of rational energy-power parameters of the drive of roll crushers. Steel in Translation. 2023. Vol. 53. No. 7. pp. 640–647. DOI: 10.3103/S0967091223070124 |
