
Predicting accidents in the mining industry in Zimbabwe in order to develop preventive measures to reduce them
Irina S. Kuptsova
Yuri I. Bulygin
Robert R. Lazyrenko
Alan R. Temirkanov
Annotation
Keywords
Bibliography
1. Ratnikov M. Zimbabve budet uchit' inzhenerov v Rossii [Zimbabwe will train engineers in Russia]. Forpost Severo-Zapad. Available from: https://forpost-sz.ru/a/2019-03-27/zimbabve-budet-uchit-inzhenerov-v-rossii (Accessed 5th December 2019) (In Russ.).
2. Flood at the gold mines Zimbabwe. IndustriALL Global Union. Available from: http://www.industriall-union.org/ru/potop-na-zolotyh-shahtah-v-zimbabve-unes-zhizni-28-starateley-neobhodimo-uzakonit-normy-bezopasnosti (Accessed 25th November 2019).
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10. Khanova A. A. Interpolyatsiya funktsiy [Functions interpolation]. Available from: http://www.exponenta.ru/educat/systemat/hanova/interp/math.asp (Accessed 25th December 2019) (In Russ.).
11. Bulygin Yu. I., Ngirazi T., Lazurenko R. R., Shchekina E. V. Obosnovanie metoda matematicheskogo prognozirovaniya neschastnykh sluchaev v gornodobyvayushchey promyshlennosti respubliki Zimbabve [Justification of the method of mathematical forecasting of accidents in the mining industry of the Republic of Zimbabwe]. Aspirant. 2016;6(22):159–164 (In Russ.).

Business game as a form of effective labor protection training
Nail K. Abdrakhmanov
Artem V. Fedosov
Ilida.R. Danieva
Alina S. Tikhonova
Regina.R. Valeeva
Annotation
Keywords
Bibliography
1. Fedosov A. V., Kutuzova I. S., Shabanova V. V., Pakhomov O. V. Problemy terminologii i tekhnicheskogo regulirovaniya v oblasti bezopasnosti truda [Problems of terminology and technical regulation in the field of labor safety]. Eurasian Law Journal. 2019;10(137):176–177 (In Russ.).
2. Fedosov A. V., Zakirova Z. A., Guseva I. E. Professional'nye riski rabotnikov neftyanoy promyshlennosti [Professional risks of oil industry workers]. Occupational Safety in Industry. 2016;6:70–73 (In Russ.).
3. Grazhdankin A. I. O bezopasnosti truda na periferii progressa [On labor safety on the frontier of progress]. Okhrana truda i sotsial'noe strakhovanie. 2008;12:23–31 (In Russ.).
4. Orlov O. I., Perevedentsev O. V., Mamonova E. Yu., Levanov V. M. Metod avtomatizirovannogo kompleksnogo analiza sostoyaniya zdorov'ya i meditsinskogo obespecheniya v ekstremal'nykh usloviyakh proizvodstvennoy deyatel'nosti [Method of automated complex analysis of health status and medical support in extreme conditions of industrial activity]. Aerospace and Environmental Medicine. 2018;51(4):41–45 (In Russ.).
5. Fedosov A. V., Vadulin N. V., Sharafutdinov G. M. et al. Okhrana truda: v 2 ch. [Labor protection: 2 parts]. Ufa: Izd-vo UGNTU, 2017, Part 1, 239 p. (In Russ.).
6. Boltaeva M. L. Delovaya igra v obuchenii [Business game in training]. Young Researcher. 2012;2(37):252–254 (In Russ.).
7. Fedosov A. V., Shabanova V. V., Zakirova Z. A. et al. Prosveshchenie kak instrument povysheniya urovnya kul'tury bezopasnosti studentov napravleniya podgotovki "tekhnosfernaya bezopasnost'" [Education as a way for improving the safety culture of students "Health, safety and environment" training field]. Bulletin of USPTU. 2019;3(29):126–132 (In Russ.).
8. Gallyamova E. I., Enikeeva T. M., Abdrakhmanov N. Kh. Motivatsiya rabotnikov k soblyudeniyu tekhniki bezopasnosti [Motivation of employees to comply with safety regulations]. Ekspertiza promyshlennoy bezopasnosti i diagnostika opasnykh proizvodstvennykh ob’ektov. 2015;1:52–55 (In Russ.).
9. Nikulin A. N., Romanov A. F., Ikonnikov D. A., Dolzhikov I. S. Analiz tekhnicheskikh sredstv obespecheniya avtomaticheskogo kontrolya primeneniya rabotnikami SIZ [Analysis of technical means to ensure automatic control of the use of PPE by employees]. Mining informational and analytical bulletin. 2019;7:130–140 (In Russ.).
10. Poryvkina A. A. Delovaya igra kak metod interaktivnogo obucheniya na urokakh obshchestvoznaniya v obrazovatel'nykh uchrezhdeniyakh SPO [Business game as a method of interactive learning in social studies classes in educational institutions of vocational schools]. Young Researcher. 2015;3 (83):841–844. Available from: https://moluch.ru/archive/83/15251/ (Accessed 24th October 2020) (In Russ.).
11. Glebova E. V., Fomin E. A., Ivanova M. V. Kolichestvennaya otsenka bezopasnogo povedeniya rabotnika po rezul'tatam povedencheskogo audita bezopasnosti [Quantitative assessment of the employee's safe behavior based on the results of a behavioral security audit] Occupational Safety in Industry. 2019;3:52–56 (In Russ.).
12. Glebova V. E., Volokhina A. T., Vikhrov A. E. Otsenka urovnya kul'tury proizvodstvennoy bezopasnosti na osnove primeneniya metodov statisticheskogo analiza dannykh [Assessment of the level of industrial safety culture based on the use of statistical data analysis methods]. Occupational Safety in Industry. 2019;12:66–74 (In Russ.).

Calculation of collective risk of foundry professional groups based on the analysis of individual risk of each employee
Viktor V. Maslenskiy
Lyubetskaya Nadezhda Anatolyevna
Annotation
Keywords
Bibliography
1. Merkulova E. V., Makushin V. P. Otsenka proizvodstvennogo riska i metody upravleniya im na predpriyatii mashinostroitel'nogo kompleksa [Assessment of production risk and methods of its management at the machine-building complex enterprise]. Auditorium. 2019;3(23):83–93 (In Russ.).
2. Esipov Yu. V., Shchekina E. V., Maslenskiy V. V. Primenenie logiko-vozmozhnostnogo metoda dlya ekspress-otsenki veroyatnosti proisshestviya v mnogofaktornoy tekhnicheskoy sisteme staleliteynogo tsekha [Application of logical-and-possibility method for rapid assessment of accident probability in a multivariable technical system of the steel foundry]. Safety of Technogenic and Natural Systems. 2018;3-4:52–63 (In Russ.).
3. Shchekina E. V., Maslenskiy V. V. Otsenka individual'nogo professional'nogo riska dlya rabotnikov liteynogo proizvodstva na osnove metodiki rascheta veroyatnosti utraty rabotnikom trudosposobnosti v zavisimosti ot sostoyaniya usloviy truda na rabochem meste [Assessment of individual occupational risk for foundry workers based on the method of calculating the probability of employee disability depending on the state of working conditions at the workplace]. Young Researcher of the Don. 2018;4(13):170–179 (In Russ.).
4. Sazonova A. M. Integral'naya otsenka usloviy truda pri stroitel'no-montazhnykh rabotakh v podzemnykh sooruzheniyakh [Integrated assessment of working conditions in the construction and installation works in underground structures].Bulletin of Scientific Research Results. 2016;3–4(20–21):51–59 (In Russ.).
5. Lazarenkov A. M., Khoreva S. V. Klassifikatsiya rabochikh mest liteynogo proizvodstva po usloviyam truda [Purification of the heat-electric generating station flue gases of sulfur and nitrogen oxides]. Foundry production and metallurgy. 2009;3(52):92–98 (In Russ.).
6. Izmerov N. F., Prokoprnko L. V., Simonova N. I. et al. Metodika rascheta integral'nogo pokazatelya urovnya professional'nogo riska v organizatsii i individual'nogo professional'nogo riska v zavisimosti ot usloviy truda i sostoyaniya zdorov'ya rabotnika [Method for calculating the integral indicator of the level of professional risk in the organization and individual professional risk depending on the working conditions and health of the employee]. Klinskii institut okhrany i uslovii truda. Available from: http://www.kiout.ru/info/publish/216 (Accessed 10th October 2020) (In Russ.).
7. Maslenskiy, V. V. Tekhnologiya berezhlivogo proizvodstva kak element sistemy upravleniya professional'nymi riskami predpriyatiya [Lean production technology as an element of the professional risk management system of the enterprise]. Safety of Technogenic and Natural Systems. 2019;4:9–12 (In Russ.).

Evaluation of the properties of anti-corrosion coatings of steel structures
Deryushev Viktor Vladimirovich
Zaitseva Marina Mikhailovna
Evgeny E. Kosenko
Stepan K. Mamberger
Annotation
Keywords
Bibliography
1. Deryushev V. V., Sidelnikova E. G. Obobshchennyy pokazatel' dostatochnosti dlya otsenivaniya tekhnicheskogo sostoyaniya stroitel'noy i pod’emno-transportnoy tekhniki [Generalized sufficiency indicator for assessing the technical condition of construction and lifting equipment]. Nauchnoe obozrenie. 2013;9:164–167 (In Russ.).
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3. Chernega Yu. G., Ivanov V. V., Shtyn S. Yu. Povyshenie iznosostoikosti poverkhnosti detalei putem naneseniya vibratsionnykh mekhanokhimicheskikh pokrytii [Increasing the wear resistance of the surface of parts by applying vibrational mechanochemical coatings]. Fundamental'nye osnovy fiziki, khimii i dinamiki naukoemkikh tekhnologicheskikh sistem formoobrazovaniya i sborki izdeliy. Sbornik trudov nauchnogo simpoziuma tekhnologov-mashinostroiteley [Fundamental principles of physics, chemistry and dynamics of high-tech technological systems for forming and assembling products. Proceedings of the scientific Symposium of engineering technologists]. Rostov-on-Don: DSTU Publishing house, 2019, p. 420–423 (In Russ.).
4. Deryushev V. V., Kosenko V. V., Zaytseva M. M. Prinyatie tekhnicheskikh resheniy v usloviyakh neopredelennosti pri nalichii riska [Technical decisions in uncertain environment at risk]. Safety of Technogenic and Natural Systems. 2019;2:56–61 (In Russ.).
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6. Zaytseva M. M., Megera G. I., Kopylov F. S., Krymskiy V. S. Povyshenie bezopasnosti raboty tekhniki putem obespecheniya ee nadezhnosti [Improving safety of equipment by reliability provision]. Safety of Technogenic and Natural Systems. 2019;2:33–37 (In Russ.).
7. Kotesova А. А., Teplyakova S. V., Popov S. I., Kopylov F. C. Ensuring assigned fatigue gamma percentage of the components. Construction and Architecture: Theory and Practice for the Innovation Development (CATPID-2019): International Scientific Conference in Kislovodsk 1–5 October 2019. E3S Web of Conferences. 2019;138:066029.
8. Rogovenko T. N., Zaitseva M. M. Statistical modeling for risk assessment at sudden failures of construction equipment. MATEC Web of Conferences. 2017;129:05014.
9. Ivanov V. V., Lutsenko R. P., Pogorelov N. P. Issledovanie tekhnologicheskikh kharakteristik protsessa formirovaniya vibratsionnogo mekhanokhimicheskogo oksidnogo pokrytiya [Investigation of technological characteristics of the process of forming a vibrational mechanochemical oxide coating]. Fundamental'nye osnovy fiziki, khimii i dinamiki naukoemkikh tekhnologicheskikh sistem formoobrazovaniya i sborki izdeliy. Sbornik trudov nauchnogo simpoziuma tekhnologov-mashinostroiteley [Fundamental principles of physics, chemistry and dynamics of high-tech technological systems for forming and assembling products. Proceedings of the scientific Symposium of engineering technologists]. Rostov-on-Don: DSTU Publishing house, 2019, p. 240–245 (In Russ.).
10. Ivanov V., Popov S., Dontsov N. et al. Mechanical coating formed under conditions of vibration exposure. State and Prospects for the Development of Agribusiness — Interagromash 2020: XIII International Scientific and Practical Conference. E3S Web of Conferences. 2020;175:05023.

Investigation of the stability of polymer composites based on epoxy matrix and astralenes under exposure to high temperatures
Valeriya A. Borisova
Andrei A. Egorov
Annotation
Keywords
Bibliography
1. Simonov-Emelyanov I. D., Apeksimov N. V., Trofimov A. N. et al. Fiziko-mekhanicheskaya monolitnost' struktury i svoystva vysokoprochnykh polimernykh kompozitsionnykh materialov [Physical and mechanical solidity of structure and properties of high strength polymeric composite materials]. Composite materials constructions. 2019;2(154):30–36. (In Russ.).
2. Voroshirin A. S. Polimernye materialy na osnove epoksidnykh smol [Polymer materials based on epoxy resins]. Sovremennye tekhnologii v obrazovanii i promyshlennosti: ot teorii k praktike: sb. mater. II Vnutrivuz. nauch.-prakt. konf. [Modern technologies in education and industry: from theory to practice: proc. of the II intra-University scientific-practical conf.]. Sterlitamak: Publishing house of Ufa State Petroleum Technological University, 2018, p. 118–119. (In Russ.).
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4. GOST R 56211–2014 Smoly epoksidno-dianovye neotverzhdennye. Tekhnicheskie usloviya [GOST R 56211-2014 Non-cured epoxy-diane resins. Technical conditions]. Federal Agency on Technical Regulating and Metrology. Moscow: Standartinform, 2015. Available from: http://docs.cntd.ru/document/1200115430 (Accessed 20 October 2020) (In Russ.).
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7. Ponomarev A. N., Nikitin V. A. Poliedral'nye mnogosloynye uglerodnye nanochastitsy fulleroidnogo tipa [Polyhedral multi-layered carbon nanoparticles of the fulleroid type]. Patent 2196731, Russian Federation. No. 2000124887/12, 2020. Available from: https://yandex.ru/patents/doc/RU2196731C2_20030120 (Accessed 20 October 2020) (In Russ.).
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9. Ilchenko S. I., Gunyaev G. M., Aleksashin V. M. et al. Uglerodnye nanochastitsy strukturnye modifikatory i uprochniteli polimerov i polimernykh kompozitov [Carbon nanoparticles structural modifiers and hardeners of polymers and polymer composites]. Aviation Materials and Technologies. 2004;2:36–54 (In Russ.).
10. Brusentseva T., Zobov K., Filippov A. Vvedenie nanoporoshkov i mekhanicheskie svoystva materialov na osnove epoksidnykh [Introduction of nanopowders and mechanical properties of materials on epoxy resins]. Nanoindustry. 2013;3(41):21–31 (In Russ.).
11. GOST R 53293–2009. Pozharnaya opasnost' veshchestv i materialov. Materialy, veshchestva i sredstva ognezashchity. Identifikatsiya metodami termicheskogo analiza [GOST R 53293-2009. Fire hazard of substances and materials. Materials, substances and means of fire protection. Identification by thermal analysis methods]. Federal Agency on Technical Regulating and Metrology. Moscow: Standartinform, 2019. Available from: http://docs.cntd.ru/document/1200071912 (Accessed 20 October 2020) (In Russ.).
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13. Baratov A. N., Korolchenko A. Ya., Kravchuk G. N. et al. Pozharovzryvoopasnost' veshchestv i materialov i sredstva ikh tusheniya: Sprav. izd. v 2 kn. [Fire and explosion hazard of substances and materials and means of their extinguishing: Reference ed. in 2 books]. Moscow: Khimiya, 1990, 496 p. (In Russ.).
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15. Goryunov V. A., Chernikov A. I., Chuykov A. M. Differentsial'no-termicheskiy i termogravimetricheskiy analiz termodestruktsii polimernykh materialov [Differential thermal and thermogravimetric analysis of thermal degradation of polymer materials]. Problemy obespecheniya bezopasnosti pri likvidatsii posledstviy chrezvychaynykh situatsiy. 2015;1:154–157 (In Russ.).

Improving safety and reliability of Gazelle series vehicles by upgrading frame structures
Mikhail S. Dolmatov
Sergey A. Ivanov
Alexander G. Isaev
Annotation
Keywords
Bibliography
1. Porter L. Avtomobil'nye kuzova: Rukovodstvo po remontu [Car bodies: repair guide]. Moscow: Alfamer Publishing, 2007, 276 p. Available from: https://www.studmed.ru/porter-lindsi-per-avtomobilnye-kuzova-rukovodstvo-po-remontu_76ccb1d25e2.html (Accessed 20th October 2020). (In Russ.).
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3. Isaev A. G., Drobotov A. A. Metody uprochneniya detaley pri remonte nesushchikh sistem avtomobiley [Methods of strengthening parts in the repair of load-bearing systems of cars]. Nazemnye transportno-tekhnologicheskie kompleksy i sredstva: mater. mezhdunar. nauch.-tekhn. konf. [Ground transport and technological complexes and facilities: proceedings of the international sci-tech. conf.]. Tyumen: Publishing house of Industrial University of Tyumen, 2018, p. 122–125. (In Russ.).
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Aspects of application of a risk-based approach to hazardous production facilities
Elena V. Egel'skaya
Maksim Y. Romanenko
Annotation
Keywords
Bibliography
1. Korotkiy A. A., Pavlenko A. N., Kinzhibalov A. A., Kinzhibalov A. V. Sistemy bezopasnosti bashennykh kranov v aspekte resheniya problem avariynosti i proizvodstvennogo travmatizma [Safety systems for tower cranes in the aspect of solving problems of accidents and industrial injuries]. Voprosy bezopasnosti. 2018;5:25–34 (In Russ.).
2. Egelskaya E. V., Yushchenko A. V. Primenenie risk-orientirovannogo podkhoda pri podgotovke spetsialistov na ob’ektakh, ekspluatiruyushchikh pod’emnye sooruzheniya [Application of a risk-based approach to training specialists at facilities that operate lifting structures]. Nazemnye transportno-tekhnologicheskie kompleksy i sredstva: mat-ly mezhdunar. nauch.-tekh. konf. [Land transport and technological complexes and facilities: proc. intrnat. scientific and technical conf.]. Tyumen: Tyumen Industrial University, 2019, p. 308–312 (In Russ.).
3. Egelskaya E. V., Korotkiy A. A., Panfilova E. A., Kinzhibalov A. A. Risk-orientirovannyy podkhod v sisteme “personal — mekhanizmy — proizvodstvennaya sreda” na ob’ektakh, ekspluatiruyushchikh bashennye krany [Risk-based approach in “personnel-machinery-production environment” system at the facilities running tower cranes]. Vestnik of Don State Technical University. 2019;19(1):56–62 (In Russ.).
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5. Panfilov A. V., Deryushev V. V., Korotkiy A. A. Rekomendatel'nye sistemy bezopasnosti dlya risk-orientirovannogo podkhoda [Recommended safety systems for risk-oriented approach]. Occupational Safety in Industry. 2020;5:48–55 (In Russ.).
6. Panfilov A. V., Bakhteev O. A., Deryushev V. V., Korotkiy A. A. Sistema adaptivnogo distantsionnogo monitoringa i kontrolya ekspluatatsii opasnykh ob’ektov na osnove risk-orientirovannogo podkhoda [Adaptive remote monitoring and control system for the operation of hazardous facilities based on a risk-based approach]. Safety of Technogenic and Natural Systems. 2020;2:19–29 (In Russ.).
7. Korotkiy A. A., Zhuravleva M. A. Risk-orientirovannyy podkhod dlya promyshlennykh predpriyatiy [Risk-based approach for industrial enterprises] Life safety. 2016;5 (185):8–13 (In Russ.).
8. Korotkiy A. A., Kinzhibalov A. A., Panfilov A. V., Kurilkin D. A. Risk-orientirovannyy podkhod k organizatsii nadzornoy deyatel'nosti v oblasti promyshlennoy bezopasnosti [Risk-based approach to the organization of supervisory activities in the field of industrial safety]. Occupational Safety in Industry. 2016;2:58–63 (In Russ.).
9. Korotkiy A. A., Zhuravleva M. A. Sukiasyan A. A. ed. Obzor metodov kolichestvennogo otsenivaniya proizvodstvennykh riskov [Overview of methods for quantitative assessment of production risks]. Nauchnye preobrazovaniya v epokhu globalizatsii: sb. st. mezhdunar. nauch.-prakt. konf. pod red. A. A. Sukiasyan [Scientific transformations in the era of globalization: proc. of the scientific-practical conf. Sukiasyan A.A. ed.]. Ufa: Aeterna, 2015, p. 52–55 (In Russ.).

Role of wastewater sludge treatment by anaerobic stabilization for Rostovvodokanal company
Natalia E. Gutorova
Annotation
Keywords
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Biotechnical toxicity assessment system of rare earth metals compounds
Margarita I. Semenova
Andrey V. Smirnov
Aleksey Sokolov
Alla S. Kovalevskay
Olga V. Smolova
Annotation
Keywords
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Measures to optimize traffic and the environment. Calculations of environmental safety on a given section of the Rostov-on-Don road network
Durov Roman Sergeevich
Varnakova Ekaterina Vladimirovna
Kobzev Kirill Olegovich
Annotation
Keywords
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