Original paper

UDC 622.23.01:553.061.4:620.173.24 © M.A. Cherevko1, A.V. Dengaev2, О.V. Dengaeva3, D.S. Korelskiy4, 2025

ISSN 0041-5790 (Print) • ISSN 2412-8333 (Online) • Ugol’ – Russian Coal Journal, 2025, № 11, pp. 121-124

DOI: http://dx.doi.org/10.18796/0041-5790-2025-11-121-124

THEORETICAL BASIS OF ROCK FAILURE CRITERIA WITH ACCOUNT OF STRUCTURAL DEFECTS

Authors

M.A. Cherevko1, A.V. Dengaev2, О.V. Dengaeva3, D.S. Korelskiy4

1 Nefteservisnye Resheniya LLC, Saint Petersburg, 190031, Russian Federation

2 Gubkin Russian State University of Oil and Gas, Moscow, 119991, Russian Federation

3 Gazprom Neft PJSC, Saint-Petersburg, 190000, Russian Federation

4 Saint Petersburg Mining University, Saint-Petersburg, 199106, Russian Federation e-mail: Cherevko.MiA@gazprom-neft.ru

Authors Information

Cherevko M.A. – PhD (Engineering), General Director, Nefteservisnye Resheniya LLC, Saint Petersburg, 190031, Russian Federation, е-mail: Cherevko.MiA@gazprom-neft.ru

Dengaev A.V. – PhD (Engineering), Associate Professor, Gubkin Russian State University of Oil and Gas, Moscow, 119991, Russian Federation, e-mail: dengaev.a@gubkin.ru

Dengaeva О.V. – Head of the Technological Development Department, Gazprom Neft PJSC, Saint-Petersburg, 190000, Russian Federation, e-mail: olga.dengaeva@gmail.com

Korelskiy D.S. – PhD (Engineering), Associate Professor, Mining Department, Saint Petersburg Mining University, Saint-Petersburg, 199106, Russian Federation, e-mail: Korelskiy_DS@pers.spmi.ru

Abstract

Development of new theoretical as well as design and engineering solutions based on detailed studies of the physical nature of the rock failure processes allows establishing the relationship between the concentration of rock breaking stresses and their structure along with systematizing these data. The aim of this study is to investigate the effects of structural defects on the rock failure criteria. Studies of the failure criteria involved consideration of cohesion, internal friction angle, discontinuities, and other structural factors of rocks and their changes as the result of stress redistribution and the stress-and-strain state. Availability of the equation that describes the state of the rock-forming minerals with account of their structure makes it possible to predict the stability of the rock mass over time during stress redistribution and changes in its stress-and-strain state.

Keywords

Defect, rock, stress, stress-and-strain state, strength, failure, structure, solid body.

References

1. Tyulyaeva Yu.S., Khayrutdinov A.M., Gorelkina E.I. Increasing Classification of georesources in the paradigm of their integrated development. Russian Mining Industry. 2024;(6):140-143. (In Russ.) DOI: 10.30686/1609-9192-2024-6-140-143.
2. Nikitin V.I., Nechaeva O.A., Zhivaeva V.V. Software for calculating the volume of drilling fluid filtrate penetrating into the reservoir during well completion. Oil Industry. 2022;(8):126-128. DOI: 10.24887/0028-2448-2022-8-126-128.
3. Kongar-Syuryun Ch.B., Khayrutdinov A.М., Dengaev A.V., Abdulrahman B. Research on the mechanical properties of backfill composite made from coal mining waste. Ugol’. 2025;(3):145-148. (In Russ.). DOI: 10.18796/0041-5790-2025-3-145-148.
4. Zakirova G.S., Pshenin V.V., Gustov A.A. Compensation of Temperature Deformations of Gas Pipelines. International Journal of Engineering, Transactions A: Basics. 2025;38(7):1699-1707. DOI: 10.5829/IJE.2025.38.07A.20.
5. Babyr N.V. Topical Themes and New Trends in Mining Industry: Scientometric Analysis and Research Visualization. International Journal of Engineering, Transactions A: Basics. 2024;37(2):439-451. DOI: 10.5829/ije.2024.37.02b.18.
6. Kuznetsov Yu.N., Stadnik D.A., Stadnik N.M., Shadyzheva E.B. Methodological Bases for Synthesis Operation Models for Control of the Reproduction Process of the Advancing Faces of Coal Mines. Sustainable Development of Mountain Territories. 2022;14(4):685-694. (In Russ.). DOI: 10.21177/1998-4502-2022-14-4-685-694.
7. Odintsov E.E., Gusev V.N. Rock Mass Condition Control by the Method of Predicting of Water-Conducting Fracture Zone Parameters for the Deposits of Polymetallic Ores. International Journal of Engineering, Transactions C: Aspects. 2026;39(06):1326-1333. DOI: 10.5829/ije.2026.39.06c.02.
8. Nikitin V.I., Nechaeva O.A., Mozgovoi G.S. Analysis of the results of the experiment to determine the saturation of the filtrate of drilling fluid of the core sample. AIP Conf. Proc. 2021;2410(1):020014. DOI: 10.1063/5.0067566.
9. Kovalskiy E.R., Kongar-Syuryun Ch.B., Sirenko Yu.G., Mironov N.A. Modeling of rheological deformation processes for room and pillar mining at the Verkhnekamsk potash salt deposit. Sustainable Development of Mountain Territories. 2024;16(3):1017-1030. (In Russ.). DOI: 10.21177/1998-4502-2024-16-3-1017-1030.
10. Nikitin V.I., Agrelkina M.M. Justification for the Selection of a Relative Permeability Model in the Task of Predicting Drilling Fluid Filtrate Invasion into the Formation. International Journal of Engineering. 2025;38(10):2312-2320. DOI: 10.5829/ije.2025.38.10a.08.
11. Kongar-Syuryun Ch.B. Influence of mine water on the strength of artificial mass based on industrial waste. Ugol’. 2024;(12):75-78. (In Russ.). DOI: 10.18796/0041-5790-2024-12-75-78.
12. Tyulyaeva Yu.S., Khayrutdinov A.M. Creation of a backfill composite based on coal industry waste. Ugol’. 2024;(10):24-27. (In Russ.). DOI: 10.18796/0041-5790-2024-10-24-27.
13. Stadnik D.A., Stadnik N.M., Zhilin A.G., Lopushnyak E.V. Methodological framework for implicit modeling of solid mineral deposits in automated design. MIAB. Mining Inf. Anal. Bull. 2023;(5-1):185-197. (In Russ.). DOI: 10.25018/0236_1493_2023_51_0_185.
14. Nikitin V.I., Zhivaeva V.V., Mozgovoy G.S. Calculation of Saturation and Depth of Filtrate Penetration in the Primary Opening. Engineering Innovations and Sustainable Development. 2022;210. DOI: 10.1007/978-3-030-90843-0_30.
15. Pshenin V.V. Determination of Parameters of Rational Placement of Oil and Petroleum Product Vapor Recovery Unit. International Journal of Engineering, Transactions B: Applications. 2025;38(2):362-367. DOI: 10.5829/ije.2025.38.02b.10.
16. Kongar-Syuryun Ch.B., Sazankova E.S., Cherevko M.A., Dengaev A.V. A study of the structural defects impact on the strength of rocks. Ugol’. 2025;(5):97-100. (In Russ.). DOI: 10.18796/0041-5790-2025-5-97-100.
17. Skorobogatov A.A., Pshenin V.V., Tsvetkova C.P., Borisov R.A. Multiphase Oil-water Flow in Horizontal and Inclined Pipelines. International Journal of Engineering, Transactions B: Applications. 2025;38(8):1820-1830. DOI: 10.5829/ije.2025.38.08b.08.
18. Kongar-Syuryun Ch.B. Industrial Waste in Backfill Composite – the Paradigm of Environmental and Process Safety during Field Development. Bezopasnost’ Truda v Promyshlennosti. 2025;(3):73-78. (In Russ.). DOI: 10.24000/0409-2961-2025-3-73-78.
19. Khayrutdinov M.M., Aleksakhin A.V., Kibuk T.N. et al. Technogenic Waste in Backfill Composite Is a Paradigm of Circular Economy. Mining. 2025;(5):57. DOI: 10.3390/mining5030057.
20. Nikitin V.I., Zhivaeva V.V., Nechaeva O.A., Kamaeva E.A. Influence of capillary pressure on the restoration of the bottomhole zone permeability at the filtrate-oil interfacial phase. Topical Issues of Rational Use of Natural Resources. 2019:558-562. DOI: 10.1201/9781003014638-12.
21. Gusev V.N., Odintsov E.E., Zherlygina E.S. Calculation of Displacements and Deformations in Rock Mass with Regard to Field Data. Gornyi Zhurnal. 2025;(4):18-25. DOI: 10.17580/gzh.2025.04.03.

For citation

Cherevko M.A., Dengaev A.V., Dengaeva О.V., Korelskiy D.S. Theoretical basis of rock failure criteria with account of structural defects. Ugol’. 2025;(11):121-124. (In Russ.). DOI: 10.18796/0041-5790-2025-11-121-124.

Paper Info

Received September 24, 2025

Reviewed October 18, 2025

Accepted October 30, 2025