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The recycling methods used in the construction and repairing of asphalt concrete pavements are being constantly improved, and the improvements mostly fall under one of the following common avenues of innovation: developing new binders based on bitumen and cement; developing new varieties of asphalt concrete and other materials having an equivalent utility and function; and developing additives that can be used in the production of new types of binders that can enhance the performance properties of the pavements. This article aims to develop the composition and determine the physical-mechanical and structural-rheological properties of asphalt concrete reclaimed by the hot recycling method and reinforced by fiber of fly ash from thermal power plants (TPP). The author of this article developed a mechanism for the interaction between fiber and bitumen in asphalt binder and acquired an optimum composition of hot granular asphalt concrete. During the research, the author evaluated the utility of fiber used as an additive in reclaimed asphalt concrete, studied its effect on the properties of hot reclaimed asphalt concrete, and examined the technological and performance properties and durability of the material obtained. The fiber of fly ash used in the hot recycling method made it possible to reduce the cost and ensure the high quality and durability of the structural layer of road pavement. Our experiments with analyses of the obtained composition indicated that employing it in the construction of the structural layer of road payment would result in superior structural integrity. Hot recycling made it possible to obtain thick bound layers characterized by the homogeneity of the material. For the first time, the author studied the effect of using fiber of fly ash from Chinese TPP in hot reclaimed asphalt concrete, and the results have proved the rationality of using this composition.
Wydawca
Czasopismo
Rocznik
Tom
Strony
181--195
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
- School of Civil Engineering, North Minzu University, Yinchuan, NingXia, P.R. China
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, Civil Engineering and Design, National Aviation University, Kyiv, Ukraine
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, Civil Engineering and Design, National Aviation University, Kyiv, Ukraine
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, Civil Engineering and Design, National Aviation University, Kyiv, Ukraine
autor
- School of Civil Engineering, North Minzu University, Yinchuan, NingXia, P.R. China
Bibliografia
- [1] Pan Y, Liu G, Tang D, Han D, Li X, Zhao Y. A rutting-based optimum maintenance decision strategy of hot in-place recycling in semi-rigid base asphalt pavement. J Clean Prod. 2021;297:126663.
- [2] Stimilli A, Virgili A, Giuliani F, Canestrari F. In plant production of hot recycled mixtures with high reclaimed asphalt pavement content: a performance evaluation. In: Canestrari F., Partl M. editors. 8th Rilem International Symposium on Testing and Characterization of Sustainable and Innovative Bituminous Materials, Vol. 11. Dordrecht: Springer; 2016. pp. 927–39.
- [3] Stimilli A. New method to estimate the “re-activated” binder amount in recycled hot -mix asphalt. Road Mater Pavement Des. 2015;16: 442–59.
- [4] Xu X, Gu H, Dong Q, Li J, Jiao S, Ren J. Quick heating method of asphalt pavement in hot in-place recycling. Constr Build Mater. 2018;178:211–8.
- [5] Britchenko I, Savchenko L, Naida I, Tregubov O. Areas and means of formation of transport regional complexes and mechanisms for managing their competitiveness in Ukraine. Ikonomicheski Izsledvania. 2020;29(3):61–82.
- [6] Rezvantsev VI. New method of asphalt concrete regeneration: materials of VII All-Union meeting of road builders. In: Acceleration of scientific and technical progress, increase of labour productivity and quality of road works. Moscow: Nauka; 1981; 124–136.
- [7] Xunyi GK. Regenerated road asphalt concrete. Moscow: Transport; 1984.
- [8] Glet W. Kaltbau weiseneinneuer Weg der Wiederverwendung und zur Einkapseltungkritischer Stofte. Die Asphaltstrasse. 1990;6:31–5.
- [9] Sun TS. Heat transfer analysis of microwave hot-recycling for asphalt pavement. J Eng. 2020;3:1–5.
- [10] Jing H, Cong Y, Zhang Y, Song L, Romanovich M. Mix ratio optimization design method for hot in-place recycled asphalt mixtures. Eng J Dyna. 2020;95:553–60.
- [11] Zolotarev VA. Surface phenomena in disperse systems. Moscow: Nauka; 1999.
- [12] DSTU B.2.7-46:2006. General construction cements. Technical conditions. 2006. https://dnaop.com/html/44199/doc-%D0%94%D0%A1%D0%A2%D0%A3_%D0%91_%D0%92.2.7-46-96. Accessed 19 Dec 2021.
- [13] DSTU 4044. Viscous petroleum bitumen for roads. Specifications. 2001. http://online.budstandart.com/ru/catalog/doc-page.html?id_doc=45957. Accessed 19 Dec 2021.
- [14] DSTU B V.2.3-39. Guidelines for the construction of pavement layers of stone materials. 2016. http://online.budstandart.com/ua/catalog/doc-page.html?id_doc=65407. Accessed 11 Feb 2022.
- [15] GOST 12801-98. Materials on the basis of organic binders for road and airfield construction. Test methods. 1998. https:docs.cntd.ru/document/1200003974. Accessed 19 Dec 2021.
- [16] GOST 31015-2002. Asphalt concrete mixtures and crushed stone mastic asphalt concrete. Technical specifications. 2002. https:docs.cntd.ru/document/1200031204. Accessed 19 Dec 2021.
- [17] VBN B.2.3-218-002-95. Design and construction of road foundations and pavements made of stone materials, industrial wastes and cement reinforced soils. 1995. http://online.budstandart.com/ru/catalog/doc-page?id_doc=24956. Accessed 13 Nov 2021.
- [18] GOST 16483.32-77 Wood. Method for determination of hygroscopicity. 1978. https:files.stroyinf.ru/Data1/20/20722/index.htm. Accessed 13 Nov 2021.
- [19] GOST 7516-75 Pulp. Method for determination of swelling. 1975. https:files.stroyinf.ru/Data/354/35419.pdf. Accessed 15 Dec 2021.
- [20] GOST 25139-93 Plastics. Methods for determination of flowability. 1993. https:docs.cntd.ru/document/1200020928. Accessed 13 Nov 2021.
- [21] GOST 9128-2009. Asphalt concrete road mixtures, aerodromes and asphalt concrete. Technical specifications. 2009. https:docs.cntd.ru/document/1200078690. Accessed 20 Nov 2021.
- [22] Savchenko L, Achkevych O, Achkevych V, Slipukha T. Development of system for stabilizing movement of power unit with rear mounted mower. Paper presented at the 20th International Scientific Conference Engineering for Rural Development; 2021pp. 750–5.
- [23] Maryshev BS, Gopin OB. Regeneration of road pavement. Recyclers. Technol Technol. 2006;3:20–2.
- [24] Crolley AV. New on-site hot mix asphalt resurfacing in Mississippi. Mississippi: US Transportation Research Administration; 1999.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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