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The use of crushed, granulated slag is now a rational direction in the use of phosphorus waste in various areas of construction. The modern state of science and technology and the accumulated experience allow to use almost all types of metallurgical slag for the production of road-building materials. The use of slag from other industries will expand the raw material base and improve its geographical location, increase material production and quality, reduce the distance of material transportation and reduce the road construction cost. The use of slag is an environmental task that will have a social impact. The study theoretically proved and experimentally established the feasibility of laying asphalt concrete coatings with phosphorus slag on roadways. The technology of asphalt–concrete mixture preparations and compaction is developed, which ensures high operational properties of road surfaces. It was established that it is possible to produce homogeneous asphalt concrete with phosphorus slag, gravel, mineral powder, and sand, unlike traditional mineral materials of natural origin, such as limestone.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
44--61
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
autor
- School of Civil Engineering, North Minzu University, 750021, 204 Wenchang Road, Yinchuan, People’s Republic of China
- Department of Computer Technologies of Construction and Reconstruction of Airports, National Aviation University, Kyiv, Ukraine
autor
- Faculty of Ground Structures and Airfields, Department of Computer Technologies of Construction and Reconstruction of Airports, National Aviation University, Kyiv 03058, Ukraine
autor
- Faculty of Linguistics and Social Communications, Department of Professional Foreign Languages, National Aviation University, Kyiv 03058, Ukraine
autor
- Department of Welding Production, E.O. Paton Institute of Materials’ Science and Welding, National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", Kyiv 03056, Ukraine
autor
- School of Civil Engineering, North Minzu University, Yinchuan 750021, People's Republic of China
Bibliografia
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- [2] Honcharenko PhP. Increasing road safety on public roads in Ukraine. Sci Tech Probl Road Ind CIS/MSD Countr. 2000:178-82.
- [3] Bieliatynskyi A, Yang S, Krayushkina K, Shao M, Ta M. Study of the possibility of using phosphorous slags in road construction. Eng Sci Tech Int J. 2022;101262: 1-10.
- [4] Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Study of carbon nano modifier of fly ash in cement concrete mixtures of civil engineering. Sci Eng Comp Mater. 2022;29(1):227-41.
- [5] Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Comparative analysis of the influence of various materials on the state of the roadside environment during the road repair. Env Sci Poll Res. 2022. doi: 10.1007/s11356-022-23212-4
- [6] Atynian A, Bukhanova K, Trykoz L, Kamchatnaya S. The impact study of the fine-dispersed vermiculite powder on the gypsum binder structure by the scanning electron microscopy. Collect Sci W Ukr State Univ Rail Transp. 2019;188-94.
- [7] Koganzon MC. Problems of road development and increasing the service life of road clothing. Constr Oper Highways: Tasks Solut. 2001:20-9.
- [8] Atynian A, Trykoz L, Borodin D. Protection of railway infrastructure objects against electrical corrosion. Balt J Road Bridge Eng. 2021:10-20.
- [9] Atinyan AO, Baranov PY, Kotlyar MI. Photography as an effective average of field survey of abandoned buildings. In: International Scientific and Practical Conference ‘Trends and Trends in the Development of the Construction Industry’, 2020; Kharkiv.
- [10] Atynian A, Galkin A. Quality of increasing passenger transport service with the help planning of drivers’ rational working schedule. Transyl. Rev. 2017; XXV(20):5179-89.
- [11] Belyatinsky AO, Kuzhel NV. Criteria for the necessity of highway reconstruction taking into account the theory of traffic flows according to the payback period. In: Proceedings of the 12th Conference of Young Scientistsof Lithuania ‘Science-the Future of Lithuania. Transport’, 2009; Vilnius.
- [12] Bieliatynskyi AO, Krayushkina KV. The use of waste slag of various industries in road construction. R Brid. 2012;12:24-30.
- [13] Atinyan AO. Experience of using the latest materials by PJSC “Alpservice” on the example of restorative repair of the supporting structures of the bridge over the Lopan River. In: International Scientific and Practical Conference named after P.M. Koval “Actual Issues of Bridge Management and Ways to Improve It”, 2021; Kharkiv.
- [14] Atynian A, Trykoz L, Pustovoitova O. Effective waterproofing of railway culvert pipes. Balt J Road Bridge Eng. 2019;14(4):473-83.
- [15] Atynian A, Bukhanova K, Tkachenko R, Manuilenko V, Borodin D. Energy efficient building materials with vermiculite filler. Int J Eng Res inAfr 2019;43:20-4.
- [16] Atynian A, Trykoz L, Kamchatnaya S, Lyuty V, Borodin D. Non-destructive control method of the state of objects operating long time. Diagnostyka. 2018;19(1):11-7.
- [17] Atynian AO, Trykoz LV, Bagiants IV, Nikitinsky AV. The effect of polymer additives on the strength and electrical resistance of concrete. Sci Bull Constr. 2019;98(4):244-50.
- [18] Beliatinsky AO. Application of space photography to analyze the road network in order to improve traffic safety. R TrafSafUkr. 2000;1(6):9-11.
- [19] Barishpol AI. Highly effective drainage spheres for road and airfield surfaces, Autoshl Ukr. 1997;3:47-57.
- [20] Tselyiko MK. Production and use in construction of materials from blast furnace granulated, waste and refractory slag. Kyiv: Osvita; 1991.
- [21] Atynian AO, Trykoz LV, Kamchatnaya SM, Pustovoitova OM. Reinforcement of composite pipelines for multipurpose transportation. Transp Probl. 2018;13(1):69-79.
- [22] Atynian A, Trykoz L. Effective waterproofing of railway culvert pipes. Balt J Road Bridge Eng. 2019;14(4):473-83.
- [23] Wang Y, Zhang N, Xiao H, Zhao J, Zhang Y, Liu X. Structural characterization of phosphorous slag regarding occurrence state of phosphorus in dicalcium silicate. Materials (Basel). 2022;15(21):7450. doi: 10.3390/ma15217450
- [24] Beliatinsky AO. Geographic information technologies on roads. In: Abstracts of reports of the 62nd scientific conference ofNTU, 2006; Kyiv.
- [25] Belyatinsky AO, Nikitenko OI. Application of photogrammetry methods to study road conditions in order to improve traffic safety. R Traf Saf Ukr 1999;4(5): 101-5.
- [26] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Peculiarities of the use of the coldrecycling method for the restoration of asphalt concrete pavements. Case Stud Constr Mater 2022;16:e00872. doi: 10.1016/j.cscm.2022.e00872
- [27] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Features of the hot recycling method used to repair asphalt concrete pavements. Mater Sci Pol. 2022;40(2):181-95.
- [28] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Study of rubble stone-mastic asphalt concrete using fiber from fly ash of thermal power plants. Case Stud Constr Mater 2022;16:e00877. doi: 10.1016/j.cscm.2022.e00877
- [29] Bieliatynskyi AO, Utechenko TO. Development of projects of transport facilities with the help of the CREDO complex. In: 10th Conference of Young Scientists of Lithuania “Science is the future of Lithuania. Transport” (CD), 2008; Vilnius.
- [30] Atynian AO, Trykoz LV, Kamchatnaya SM, Pus-tovoitova OM. The investigation of prestressed pressure pipes, reinforced with fiberglass plastic. Int J Eng Res Afr 2018;36:1-11.
- [31] Belyatinsky AO, Bakulych OA. Application of transport logistics in geographic information systems of highways. Bull NTU. 2006;11:239-41.
- [32] Yakymenko OV, Kondrashchenko OV, Atynyan AO. Concrete works, Kharkiv: Kharkiv National University of Urban Economy named after O.M. Beketova; 2017.
- [33] Kartashov NA, Tyshchenko OI. Building materials from fire-liquid blast furnace ash. Kyiv: Osvita; 1990.
- [34] Hladki KV. Slag is not waste, but a valuable raw material. Khakiv: Budvydav; 1996.
- [35] Birulya AK, Nagrodskyi F. Blast furnace slags for the construction of road clothing. Zhytomyr: Road and car; 1963.
- [36] Harkyanen K. Winter maintenance of highways in Finland. Highways. 1981;7:19-31.
- [37] Marchenko OO. Building materials and products from metallurgical slag. Theor Exper Stud. 1995:19-25.
- [38] Krasikov OA, Pavlovska EP. Study of changes in road wear strength over the year. Mod Probl R Des Constr Oper. 1998:204-10.
- [39] Yang Sh, Bieliatynskyi A, Pershakov V, Shao M, Ta M. Asphalt concrete based on a polymer-bitumen binder nanomodified with carbon nanotubes for road and airfield construction. J Polym Eng. 2022;42(5):458-66.
- [40] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. The use of fiber made from fly ash from power plants in China in road and airfield construction. Constr Build Mater. 2022;323:20-32.
- [41] Romanenko OL. Economic efficiency of blast furnace slag processing. Kyiv: Stal; 1991.
- [42] Sukhorukov YM. Evaluation of frictional properties of stone materials. Operat Highways. 1989:127-32.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-806f1493-d796-4de8-80ae-cf23a6d12434