Czasopismo
2018
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Vol. 94, nr 2
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49--54
Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Warianty tytułu
Języki publikacji
Abstrakty
Purpose: The main problem with the use of rescue instruments during emergency response is the low strength of the tool’s cutting edge. The consequence of this is the low efficiency of rescue operations. The purpose of this study is to substantiate experimentally the choice of material for the tool’s cutting edge and the method of surfacing it on the cutter of a hydraulic tool, operating under the simultaneous influence of friction and cyclic loading. Design/methodology/approach: The choice of material was carried out by the way of analytical analysis with subsequent experimental verification. For this purpose, specially made samples of cutters from various grades of alloyed steel were used. With these cutters the steel rod Ø 12 mm made of St3 steel was cut; the number of cutting cycles preceding blunting or destruction of the cutting edge of the tool was counted. Analytical study of the possibility of cutter’s surface hardening by fusing the cutting edge onto it was carried out by the way of analyzing scientific research in the area of improving the technical characteristics of a mechanized hydraulic tool. Findings: It has been experimentally established that Steel 30HGT gives the greatest number of working cycles before blunting, while steels of the manufacturer (Steel 65G and Steel 12M) are destroyed in 180 and 200 working cycles, respectively. Other steels are not destroyed, but can stand fewer number of cutting cycles. To reduce the cost and increase the efficiency of rescue operations, it is proposed to perform surface hardening of the tool cutter by fusing the cutting edge made of Steel 30 HGT steel (analogs: in Germany – 30MnCrTi; in the Czech Republic – 14231). Analytical research has shown that manual arc welding as a method of welding metals is widely tested, reliably reproducible, allows for surfacing in any conditions outside the fabrication facility and is carried out with non-bulky equipment. This will increase the life of the hydraulic rescue tool. Research limitations/implications: The study was conducted for steels that meet the requirements of national standards. Practical implications: Equipping rescue workers with a mechanized tool that has been upgraded by the proposed method improves the efficiency of rescue operations in emergency situations. Originality/value: It is proposed to increase the strength and reliability of a mechanized tool for rescue operations. For the first time, an attempt to substantiate the choice of method for hardening the cutting) edge of an instrument by applying reliably reproducible technologies was made.
Rocznik
Tom
Strony
49--54
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
autor
- Department of Logistics and Technical Support of Rescue Operations, National University of Civil Defense of Ukraine, 61023, Chernyshevska str., 94, Kharkiv, Ukraine
autor
- Department of Logistics and Technical Support of Rescue Operations, National University of Civil Defense of Ukraine, 61023, Chernyshevska str., 94, Kharkiv, Ukraine
autor
- Applied Mechanics and Environmental Technologies Department, National University of Civil Defense of Ukraine, 61023, Chernyshevska str., 94, Kharkiv, Ukraine
autor
- Department of Logistics and Technical Support of Rescue Operations, National University of Civil Defense of Ukraine, 61023, Chernyshevska str., 94, Kharkiv, Ukraine, violavambol@gmail.com
Bibliografia
- [1] V.Ye. Kolesnik, O.O. Borysovs'ka, A.V. Pavlychenko, A.L. Shirin, Determination of trends and regularities of occurrence of emergency situations of technogenic and natural character in Ukraine, Naukovyi Visnyk Natsio- nalnoho Himychoho Universytetu 6 (2017) 124-131.
- [2] A.V. Yavorskyi, M.O. Karpash, L.Y. Zhovtulia, Risk management of a safe operation of engineering structures in the oil and gas sector, Proceedings of the 20th International Scientific Conference „Transport Means”, 2016,370-373.
- [3] D. Deineka, O. Kobziev, S. Avina, S. Grin, V. Deyneka, D. Taraduda, V. Sobina, Studying the photocatalytic oxidation of hydroxybenzene in aquatic medium on the photocatalizers SNO2, ZnO, Ti02, Eastem-European Journal of Enterprise Technologies 5/6(95) (2018) 59-67, DOI: 10.15587/1729-4061. 2018.145198.
- [4] V. Koloskov, Improvement of method of assessment of environmental condition of territories adjoined with environmentally dangerous technogenic objects, Tekhnohenno-ekolohichna Bezpeka 4(2/2018) (2018) 51-61, DOI: 10.5281/zenodo.l401133.
- [5] S.I. Azarov, V.L. Sydorenko, O.S. Zadunay, Shchodo otsinky bezpeky atomnykh stantsiy Ukrayiny, Tekhnohenno-ekolohichna Bezpeka 3(1/2018) (2018) 58-63, DOI: 10.5281/zenodo.ll82845.
- [6] V.V. Tiutiunyk, H.V. Ivanets, I.A. Tolkunov, E.I. Stetsyuk, System approach for readiness assessment units of civil defense to actions at emergency situations, Naukovyi Visnyk Natsionalnoho Himychoho Universytetu 1 (2018) 99-105, DOI: 10.29202/nvngu/2018-l/7.
- [7] D. Dubinin, K. Korytchenko, A. Lisnyak, I. Hrytsyna, V. Trigub, Improving the installation for fire extinguishing with fmelydispersed water, Eastem- European Journal of Enterprise Technologies 2/10(92) (2018) 38-43, DOI: 10.15587/1729-4061.2018.127865.
- [8] V.V. Tyutyunyk, V.M. Strilets', V.D. Kaluhin, Yu.V. Zakharchenko, Rozvytok metodolohichnoho pidkhodu dlya tekhnohenno-ekolohichnoyi otsinky rivnya nebezpeky funktsionuvannya lokal'nykh terytoriy Ukrayiny, Tekhnohenno-ekolohichna Bezpeka 3(1/2018) (2018) 91-101, DOI: 10.5281/zenodo. 1182869.
- [9] S. Vambol, V. Vambol, I. Bogdanov, Y. Suchikova, N. Rashkevich, Research of the influence of decomposition of wastes of polymers with nano inclusions on the atmosphere, Eastem-European Journal of Enterprise Technologies 6/10(90) (2017) 57-64, DOI: 10.15587/1729-4061.2017.118213.
- [10] V. Vambol, Numerical integration of the process of cooling gas formed by thermal recycling of waste, Eastem-European Journal of Enterprise Technologies 6/8(84) (2016) 48-53, DOI: 10.15587/1729-4061. 2016.85455.
- [11] A.G. Grigor'yants, A.I. Misyurov, R.S. Tret'yakov, A.Ya. Stavertiy, Sravneniye ekspluatatsionnykh kharakteristik pokrytiy iz nerzhaveyushchikh staley austenitnogo i martensitnogo klassov, poluchennykh metodom lazemoy gazoporoshkovoy naplavki, Nauka i Obrazovaniye 6 (2016), doi: 10.7463/0612.0418550.
- [12] A.G. Grigor'yants, I.N. Shiganov, A.I. Misyurov, Tekhnologicheskiye protsessy lazemoy obrabotki, Moskva, MGTU im. N.E. Baumana, 2006, 664.
- [13] F.M. Haggag, G.E. Lucas,Determination of Luders strains and flow properties in steels from hardness/micro-hardness tests, Metallurgical and Materials Transactions A 14A(1983) 1607-1613.
- [14] P.V. Yasnii, P.O. Marushchak, V.B. Hlado, D.Ya. Baran, Correlation of the microdislocation parameters withthe hardness of plastically deformed heat-resistant steels, Journal of Materials Science 44/2 (2008) 194-200.
- [15] P.O. Maruschak, I.B. Okipnyi, L.Y. Poberezhnyi, E.V. Maruschak, Study of heat-resistant steel strain hardening by indentation, Metallurgist 56/11-12 (2013) 946-951.
- [16] P. Rokicki, E. Bąk, G. Mrówka-Nowotnik, A. Nowotnik, Single-frequency induction hardening of structural steel, Archives of Materials Science and Engineering 86/2 (2018) 61-69, DOI: 10.5604/01.3001.0011.8237.
- [17] D. Panfil, M. Kulka, P. Wach, J. Michalski, Microstructure and wear resistance of gas-nitrided steel after laser modification, Archives of Materials Science and Engineering 85/1 (2017) 12-20, DOI: 10.5604/01.3001.0010.7984.
- [18] S. Vambol, V. Vambol, Y. Suchikova, I. Bogdanov, O. Kondratenko, Investigation of the porous GaP layers' chemical composition and the quality of the tests carried out, Journal of Achievements in Materials and Manufacturing Engineering 86/2 (2018) 49-60, DOI: 10.5604/01.3001.0011.8236.
- [19] B. Bulut, O. Tazegul, M. Baydogan, E.S. Kayali, The comparison of the sintering methods for diamond cutting tools, Journal of Achievements in Materials and Manufacturing Engineering 76/1 (2016) 30-35, DOI: 10.5604/17348412.1228631.
- [20] Stal' marki 30KHGT, URL: http://metallicheckiy- portal.ru/marki_metallov/stk/3 0XGT.
- [21] V. Skulskyi, M. Nimko, Temperature impact on delayed fracture of creep-resistant steels welds, Journal of Achievements in Materials and Manufacturing Engineering 88/1 (2018) 5-11, DOI: 10.5604/01.3001.0012.5871.
- [22] S.N. Zhiznyakov, Ruchnaya dugovaya svarka: materiały. Oborudovaniye. Tekhnologiya, Moskva, TSTT IES im. Ye. O. Patona, 2007, 359.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW
przeznaczonych na działalność upowszechniającą naukę (2019).
przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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