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EQUIPMENT AND MATERIALS
Название Dialectical mechanism of improvement of rock breaking tool
DOI 10.17580/em.2024.01.14
Автор Prokopenko S. A., Ravochkin N. N., Shadrin V. G., Kolotov S. A.
Информация об авторе

LLC «Siberian Mining Industrialists», Kemerovo, Russia1LLC MP «Power of Siberia», Kemerovo, Russia2

Prokopenko S. A.1,2, Leading Researcher, Professor, Doctor of Engineering Sciences, sibgp@mail.ru


Kuzbass State Technical University, Kemerovo, Russia1Kuzbass State Agricultural Academy, Kemerovo, Russia2

Ravochkin N. N.1,2, Associate Professor, Doctor of Philosophical Sciences

 

Kemerovo State University, Kemerovo, Russia

Shadrin V. G., Associate Professor, Candidate of Economic Sciences

 

LLC MP «Power of Siberia», Kemerovo, Russia1 ; N. A. Chinakal Institute of Mining Siberian Branch Russian Academy of Sciences, Novosibirsk, Russia2

Kolotov S. A., Post-Graduate Student2, Chief Executive Officer1

Реферат

The review and analysis of the process of the rock breaking tool improvement from the primeval age and to the present day enabled disclosing and substantiating dialectical opposites and identifying contradictions between them, which defined evolution of the tool through its history. The essence of the notion of a cutting pick is revealed as a material concentration of destructive energy. The determined hierarchy of dialectical opposites exposes the process of the cutting pick essence materialization in a certain thing. The presented sequence of dualities and their contradictory relations is a framework of the dialectical mechanism of the rock breaking tool improvement. The qualities of a rock breaking tool and the dialectical opposites, which govern these qualities, are identified. The logic of enduing the tool with qualities is revealed, starting from the effectiveness, i.e. actual feasibility of destruction of a matter by another matter, up to the implementation of this function better than other rival tools, i.e. competitive ability. In terms of the dual structure–design pair of a cutting pick, the process of resolution of contradictions between them, which transfers their interaction to a next engineering level, is discussed. Participation of the three laws of dialectic in the process of design improvement of cutting picks for mining shearers is described. The recent trends of change in the qualities of the rock breaking tool and the results of the tool operation display new inconsistencies and define directions for the further research.

Ключевые слова Mine shearer, rock breaking tool, cutting pick, dialectical opposites, contradiction, essence, thing, development, mechanism, improvement, duality
Библиографический список

1. Gabov V. V., Zadkov D. A., Nguyen V. X., Hamitov M. S., Molchanov V. V. To the problem of improvement of the working tools of mining excavation machines. MIAB. 2022. No. 6-2. pp. 205–222.
2. Arens V. G. Mining and its impact on the development of civilizations. Vestnik RAEN. 2016. Vol. 16, No. 5. pp. 24–29.
3. Tkach S. M., Batugin S. A. Stages of development of knowledge about the Earth’s natural resources and mining sciences. MIAB. 2015. No. 3. pp. 333–337.
4. Zhabin A. B., Polyakov A. V., Averin E. A., Sarychev V. I. State of scientific researches in the field of rock destruction by picks at the turn of the century. Izvestiya Tulskogo Gosudarstvennogo Universiteta. Nauki o Zemle. 2018. No. 1. pp. 230–247.
5. Prokopenko S. A., Ludzish V. S. Evolution of cutting picks for underground mining machinery. Mining Industry Journal. 2015. No. 2 (120). pp. 65–66.
6. Klishin V. I., Nikitenko S. M., Gerike B. L., Krestovozdvizhenskyi P. D. New reinforcing elements for tangential rotary cutters. Gornyi Zhurnal. 2014. No. 12. pp. 89–92.
7. Linnik Yu. N., Linnik V. Yu., Voronova E. Yu., Evstratov V. A., Zich A. Analysis of the structure of failures of shearer cutting heads. Ugol. 2021. No 4. pp. 20–24.
8. Mametyev L. E. Development of effectors and tools for boom-type roadheaders and auger machines. Gornye mashiny. 2015. No. 5. pp. 56–63.
9. Chupin S. A., Bolobov V. I., Bochkov V. S. Improvement of technology of manufacturing tangential rotary cutters. MIAB. 2017. No. 3. pp. 262–271.
10. Gabov V. V., Zadkov D. A., Kuzkin A. Y., Elikhin A. S. Fractured-laminar structure of formations and methods of coal. Key Engineering Materials. 2020. Vol. 836. pp. 90–96.
11. Bolobov V. I., Akhmerov E. V., Rakitin I. V. Influence of rock type on regularities of excavator bucket tooth crown wear. MIAB. 2022. No. 6-2. pp. 189–204.
12. Gabov V. V., Zadkov D. A., Nguyen Kh. L. Features of burst formation during cutting coals and isotropic materials with reference cutting tool of mining machines. Journal of Mining Institute. 2019. Vol. 236. pp. 153–161.
13. Klishin V. I., Gerike B. L., Nikitenko S. M., Krestovozdvizhensky P. D. Types and causes of failure of tangential-rotary cutter bits. Gornyi Zhurnal. 2016. No. 7. pp. 92–95.
14. Bolobov V. I., Chupin S. A., Akhmerov E. V., Plaschinskiy V. A. Comparative wear resistance of existing and prospective materials of fast-wearing elements of mining equipment. Materials Science Forum. 2021. Vol. 1040. pp. 117–123.
15. Gabov V. V., Xuan N. V., Zadkov D. A., Tho T. D. Increasing the content of coarse fractions in the mined coal mass by a combine using paired cuts. Journal of Mining Institute. 2022. Vol. 257. pp. 764–770.
16. Shishlyannikov D. I., Trifanov M. G., Chekmasov N. V., Ivanov S. L. The choice of technically justified operating modes of “Ural” cutter–loaders on the basis of an estimation of their drivers load under real operating conditions. Mining Equipment and Electromechanics. 2017. No. 7. pp. 3–8.
17. Linnik Yu. N., Linnik V. Yu., Petrov I. V., Zich A. Assessment of reliability of coal mining machine cutters. Ugol. 2021. No. 2. pp. 10–13.
18. Zhabin A. B., Polyakov A. V., Averin E. A., Linnik YU. N., Linnik V. YU. Estimation of abrasiveness impact on the parameters of rock-cutting equipment. Journal of Mining Institute. 2019. Vol. 240. pp. 621–627.
19. Zvonarev I. E., Shishlyannikov D. I. Efficiency improvement of loading of potassium ore by means of “Ural-20R” heading-and-winning machine. IOP Conference Series: Earth and Environmental Science. 2017. Vol. 87, Iss. 2. ID 022025.

20. Cheluzska P. Computer-aided design of robotised technology for manufacturing working units of mining machines. International Journal of Mining, Reclamation and Environment. 2015. Vol. 29, Iss. 1. рp. 62–81.
21. Cheluszka P., Mikuła S., Mikuła J. Conical picks of mining machines with increased utility properties — Selected construction and technological aspects. Acta Montanistica Slovaca. 2021. Vol. 26(2). pp. 195–204.
22. Talerov M. P., Bolobov V. I. Life and failures of tangential-rotary picks. Gornyi Zhurnal. 2018. No. 4. pp. 77–81.
23. Sementsov V. V., Prokopenko S. A., Ludzish V. S., Abramov V. V. Design and industrial testing of innovative nonexpendable picks for cutter-loaders. Eurasian Mining. 2019. No. 2. pp. 59–63
24. Jeong H., Jeon S. Characteristic of size distribution of rock chip produced by rock cutting with a pick cutter. Geomechanics and Engineering. 2018. Vol. 15, Iss. 3. рp. 811–822.
25. Bołoz Ł., Kalukiewicz A., Galecki G., Romanyshyn L., Romanyshyn T. et al. Conical pick production process. New Trends in Production Engineering : Conference. 2020. Vol. 3, Iss. 1. pp. 231–240.
26. Krauze K., Mucha K., Wydro T., Pieczora E. Functional and operational requirements to be fulfilled by conical picks regarding their wear rate and investment costs. Energies. 2021. Vol. 14, Iss. 12. 3696.
27. Zhabin A. B., Polyakov A. V., Averin E. A., Linnik Yu. N., Linnik V. Yu. Ways of development for the theory of rock and coal destruction by picks. Ugol. 2019. No. 9. pp. 24–28.
28. Shemyakin S. A., Shishkin E. A. Physical and mathematical model of rock destruction by a milling machine cutter. Journal of Mining Institute. 2021. Vol. 251. pp. 639–647.
29. Schopenhauer A. Uber das Interessante. Arthur Schopenhauers sämtliche Werke… München : R. Piper & Co., 1924.
30. What is natural stone cut with. Selection of a technology. Good stone. Available at: https://goodstones.ru/chem-rezhut-prirodnyj-kamen-vybor-texnologii/ (accessed: 30.01.2024).
31. Conical elements. Mining industry. Kennametal. Available at: https://www.kennametal.com/ru/ru/products/mining/underground-mining/conicals.html (accessed: 17.11.2023).
32. Cutting picks for BETEK heading and shearing machines. Available at: http://spsprom.ru/rezczy-dlya-prohodcheskih-i-dobychnyh-kombajnov (accessed: 17.11.2023).
33. Losev V. F., Morozova E. Yu., Tsipilev V. P. Physical basics of laser treatment of materials : Tutorial. Tomsk : TPU, 2011. 199 p.
34. Khoreshok A. A., Mametyev L. E., Tsehin A. M. et al. Mining machines and machine systems. Cutting tool of mining machines : Tutorial. Kemerovo : KuzGTU, 2018. 288 p.
35. Horoshavin L. B. Dialectical development of engineering sciences and convergent technologies. Part 2. Available at: http://www.refractories1.narod.ru (accessed: 30.01.2024).
36. Kashirin V. P. General theory of technology and engineering sciences. Nauka i technologiya. 1992. pp. 108–133.
37. Kharin Yu. A. Philosophy : University textbook (8th edition). Minsk : TeatraSistems, 2006. 448 p.
38. Kaplan L. A. New approach to the analysis and resolution of contradictions : Dissertation for certification of Master of TRIZ (theory of inventive problem solving). Hwaseong, South Korea, 2011. 188 p.
39. Prokopenko S. A., Ludzish V. S., Kurzina I. A. Improvement of cutting tools to increase the efficiency of destruction of rocks tunnel harvesters. Journal of Mining Science. 2016. Vol. 52, No. 1. pp. 153–159.
40. Prokopenko S. A., Botvenko D. V., Ravochkin N. N., Shadrin V. G. Worn cutter picks as a secondary resource for manufacturing modular cutting tools for shearers. Eurasian Mining. 2022. No. 2. рр. 67–70.
41. Dictionary of philosophy. Ed. by Frolova I. T. 7th edition, revised and amended. Moscow : Respublika, 2001. 719 p.
42. Prokopenko S. A., Ludzish V. S., Li A. A. Recycling possibilities for reducing waste from cutters on combined cutter-loaders and road builders. Waste Management and Research. 2017. Vol. 35, Iss. 12. pp. 1278–1284.

Полный текст статьи Dialectical mechanism of improvement of rock breaking tool
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