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The introduction of new road-building materials with advanced physical and mechanical properties is the trend in contemporary civil engineering, which aims to increase the quality of road surfaces. The use of cast asphalt concrete in the upper layers of road surfaces as a replacement for layers made of traditional fine-grained asphalt concrete will not only increase the pace of construction and repair, but also the durability and quality of the road pavement. However, this method requires operational and economic optimization. Using fiber from the fly ash of thermal power plants is one of the solutions for the design of cast asphalt concrete compositions. The aim of the work is to design the optimal composition of hot cast asphalt concrete and cold cast emulsion–mineral mixtures with the use of fiber from the fly ash of thermal power plants for the construction of thin-layer coatings of highways of all categories and values; to study their properties; and to determine the feasibility of their use as reinforcing and stabilizing additives. The method of GOST 11506, namely, "Method for determining the softening temperature of the ring and ball", with the apparatus "Lintel KiSh-20m-4" was used during the experiments. The use of standard laboratory tests made it possible to analyze the quality indicators of the materials under study and design the optimal compositions of hot cast asphalt concrete, taking into account the delamination of the mixture and the criterion of decomposition, in addition to exploring the properties of the obtained material.
Wydawca
Czasopismo
Rocznik
Tom
Strony
125--146
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- School of Civil Engineering, North Minzu University, 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, China
Bibliografia
- [1] Vereshchagin SV. Evaluation of quality level of asphalt concrete using serobitumen binder. Sc Techn Road Sect. 2022;3: 17–8.
- [2] Al-Osta MA, Baig MG, Al-Malack MH, Al-Amoudi OS. Study of heavy fuel oil fly ash for use in concrete blocks and asphalt concrete mixes. Adv Concrete Constr. 2016;4(2): 123–43.
- [3] Kwon H, Lee AS, Lee JH, Park NK, Kim GD, Cho B, et al. Characterization of liquid state sulfur polymer/epoxy blend as asphalt pavement materials. J Ind Eng Chem. 2017;53: 386–91.
- [4] Usman KR, Hainin MR, Satar MK, Kamarudin NN, Abdulrahman S. Palm oil fuel ash application in cold mix dense-graded bituminous mixture. Constr Build Mater. 2021;14: 287.
- [5] Wang Z, Zhou H, Mandapaka V, Nguyen L. Pavement maintenance and rehabilitation practices in California: a study of 35-year as-built data in PaveM. Int J Transp Sc Techn. 2021;10(4): 380–92.
- [6] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Features of the hot recycling method used to repair asphalt concrete pavements. Mater Sc Poland. 2022;40(2): 181–95. doi:10.2478/msp-2022-0021.
- [7] 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 Polymer Eng. 2022;42(5): 458–66. doi:10.1515/polyeng-2021-0345.
- [8] Slurry Surfacing. Akzonobel surface chemistry technical information. 2011. Available from: https://e-asphalt.com/wp-content/uploads/2019/04/slurry.pdf [Accessed 14th July 2022].
- [9] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Investigation of the properties and technologies of epoxy asphalt concrete preparation with the addition of fiber from fly ash of thermal power plants. Europ J Env Civil Eng. 2022. doi:10.1080/19648189.2022.2110160.
- [10] Xie N, Li H, Abdelhadyac A, Harvey J. Laboratorial investigation on optical and thermal properties of cool pavement nano-coatings for urban heat island mitigation. Build Env. 2019;147: 231–40.
- [11] Xie N, Li H, Zhao W, Zhang Ch, Yang B. Zhang H, et al. Optical and durability performance of near-infrared reflective coatings for cool pavement: laboratorial investigation. Build Env. 2019;163: 106334
- [12] DSTU B B.2.7-129:2013 Bitumen road lubricants. Technical conditions. Kyiv: Minregion of Ukraine; 2014. Available from: https://www.minregion.gov.ua/wp-content/uploads/2016/05/proekt-DSTU-N_Nastanova-shhodo-vlashtuvannya-zahisnih-shariv.pdf [Accessed 14th July 2022].
- [13] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Study of carbon nano-modifier of fly ash in cement concrete mixtures of civil engineering. Sc Eng Comp Mater. 2022;29(1): 227–41. doi:10.1515/secm-2022-0018.
- [14] 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: 126537. doi:10.1016/j.conbuildmat.2022.126537.
- [15] ISSA TB-139-90 Classify emulsified asphalt/aggregate mixture systems by modified cohesion tester measurement of set and cure characteristics. 1990. Available from: https://www.roadauthority.com/Standards/?id=d2d8e0d6-e452-477f-9ffb-26fc12f18bc7 [Accessed 14th July 2022].
- [16] Bastidas-Martínez JG, Reyes-Lizcano FA, Rondón-Quintana HA. Use of recycled concrete aggregates in asphalt mixtures for pavements: a review. J Traf Transp Eng. (English Ed.). 2022;9(5): 725–41. doi:10.1016/j.jtte.2022.08.001.
- [17] Recommended performance guideline for emulsified asphalt slurry seal A105. 2010. Available from: http://blacklineinc.net/wp-content/uploads/2016/11/Slurry-Seal-A105.pdf [Accessed 14th July 2022].
- [18] Solodkiy SJ, Wallis OE, Sidun YV. Possibility of using phosphoric acids in the technology of cast iron-mineral mixtures. Sc Notes Eng Mech Metal Mater Sc. 2014;45: 529–34.
- [19] SO 42.1-37641918-119:2014 Litho-military-mineral bags. Technical conditions. Kyiv: Ukravtodor; 2014. Available from: http://online.budstandart.com/ua/catalog/doc-page.html?id_doc=60842 [Accessed 14th July 2022].
- [20] Zhdanyuk VK, Terletska VY. Peculiarities of modification of bitumen emulsions by polymers. In: Materials of VII International Scientific and Technical Internet-Conference “Application of Plastics in Building and Municipal Engineering”. Kharkov: KhNAMG; 2006. p.53–4.
- [21] Vavilov PV, Kravchenko SE. On the formation of the structure of road concretes based on emulsion-mineral mixtures. In: Automobile roads and bridges. Minsk: BeldorNII; 2010. p.45–50.
- [22] Holleran G, Motina I. Modern pavement maintenance technologies. Road Techn. 2005;2: 18–28.
- [23] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Study of crushed stone-mastic asphalt concrete using fiber from fly ash of thermal power plants. Case Studies Constr Mater. 2022;16:e00877. doi:10.1016/j.cscm.2022.e00877.
- [24] Pyshyev S, Grytsenko Yu, Solodkyy S, Sidun Yu, Vollis O. Using bitumen emulsions based on oxidated, distillation and modified oxidated bitumens for slurry seal production. Chem Chem Techn. 2015;9(3): 359–66.
- [25] Bieliatynskyi A, Yang Sh, Pershakov V, Shao M, Ta M. Peculiarities of the use of the cold recycling method for the restoration of asphalt concrete pavements. Case Studies Constr Mater. 2022;16:e00872. doi:10.1016/j.cscm.2022.e00872.
- [26] Devulapalli L, Sarang G, Kothandaraman S. Characteristics of aggregate gradation, drain down and stabilizing agents in stone matrix asphalt mixtures: a state of art review. J Traf Transp Eng. (English Ed.). 2022;9(2): 167–79. doi:10.1016/j.jtte.2021.10.007.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5e19ed23-9158-41af-92e8-5cf4fffa5aec