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The addition of fly ash from thermal power plants (TPP) and chemical additives, such as polycondensation products of acetone and formaldehyde, is an effective and economical method for increasing the strength and durability of building materials, in particular concrete. Fly ash added to the concrete and mortars at 10%–15% does not reduce their technical properties, while polycondensation products of acetone and formaldehyde plasticize and accelerate the hardening process of concrete. The study aims to substantiate the possibility of obtaining concrete on dense aggregates with a high content of fly ash through the use of polycondensation products of acetone and formaldehyde as additives, which are highly soluble in water and polyfunctional. The strength indicators were determined using standard methods. The study has shown quantitative changes in the properties of the fly ash-concrete mixture, improvement of its physical and technical characteristics, and durability of the fly ash concrete with the addition of polycondensation products of acetone and formaldehyde. In the present study, the authors determine the effect of fly ash addition on the properties of a concrete mixture, as well as the maximum possible content of fly ash that can be added to concrete to maximize certain properties required of the mixture; additionally, the same action is conducted with the addition of polycondensation products of acetone and formaldehyde concomitant with the addition of fly ash.
Wydawca
Czasopismo
Rocznik
Tom
Strony
270--288
Opis fizyczny
Bibliogr. 37 poz., rys., tab.
Twórcy
autor
- School of Civil Engineering, North Minzu University, 750021, 204 Wenchang Road, Yinchuan, NingXia, P.R. China
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, CivilEngineering and Design, National Aviation University, 03058, 1 Liubomyra Huzara Ave., Kyiv, Ukraine
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, CivilEngineering and Design, National Aviation University, 03058, 1 Liubomyra Huzara Ave., Kyiv, Ukraine
autor
- Department of Computer Technologies of Construction and Reconstruction of Airports, Faculty of Architecture, CivilEngineering and Design, National Aviation University, 03058, 1 Liubomyra Huzara Ave., Kyiv, Ukraine
autor
- School of Civil Engineering, North Minzu University, 750021, 204 Wenchang Road, Yinchuan, NingXia, P.R. China
Bibliografia
- [1] Abbas SN, Qureshi MI, Abid MM, Zia A, Tariq MAUR. An investigation of mechanical properties of fly ash based geopolymer and glass fibers concrete. Sustainability (Switzerland). 2022;14(17). https://doi.org/10.3390/su141710489
- [2] Virat J, Nasir H. Experimental study on behaviour of fiber reinforced concrete and fly ash for rigid pavements. Ecol Environ Conserv. 2020;26(November Suppl. Issue):18–22. http://www.envirobiotechjournals.com/EEC/26NovSupplIssue2020/EEC-4.pdf. Accessed 19 Dec 2021.
- [3] Huang JS, Liew JX, Liew KM. Data-driven machine learning approach for exploring and assessing mechanical properties of Carbon nanotube-reinforced cement composites. Compos Struct. 2021;267. https://doi.org/10.1016/j.compstruct.2021.113917
- [4] Tolstoy D, Lesovik VS, Novikov KYu. High-strength concretes based on composite binders with the use of technogenic raw materials. Proceedings of Universities. Investment. Construction. Real Estate. 2016;2(17):174–80. https://doi.org/10.201285/2227-2917-2016-2-174-180
- [5] Zhang Y, Zhang J, Duan S, Liu J, Miao Y. Effects of urea-formaldehyde resin on physical properties and frost resistance of autocalved aerated concrete prepared with fly ash. Paper presented at the IOP Conference Series: Materials Science and Engineering. 2020;780(4). https://doi.org/10.1088/1757-899X/780/4/042011
- [6] Selezneva OI, Baranova AA, Shustov P. Influence of plasticizing additives on the process of concrete hardening in a dry hot climate. Proceedings of Universities. Investment. Construction. Real Estate. 2019;9(2):106–13. https://doi.org/10.21285/2227-2917-2019-1-106-113
- [7] Kocheshkova IM. International experience in generated and use of blast furnace slag. Econ Herald Donbas. 2020;2(60):181–6. https://doi.org/10.12958/1817-3772-2020-2(60)-181-186
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- [9] Li L, Liu Q, Huang T, Peng W. Mineralization and utilization of CO2 in construction and demolition wastes recycling for building materials: a systematic review of recycled concrete aggregate and recycled hardened cement powder. Sep Purif Technol. 2022;298. https://doi.org/10.1016/j.seppur.2022.121512
- [10] Pothinathan SKM, Muthukannan M, Selvapalam N, Gnanaraj SC. A review on application of formaldehyde in cement-based materials. Paper presented at the Materials Research Proceedings. 2021;19:18–27. https://doi.org/10.21741/9781644901618-3
- [11] Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Features of the hot recycling method used to repair asphalt concrete pavements. Mater. Sci.-Pol. 2022;40(2):181–195. https://doi.org/10.2478/msp-2022-0021
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- [13] Trykoz L, Kamchatnaya S, Pustovoitova O, Atynian A. Reinforcement of composite pipelines for multipurpose transportation. Transp Probl. 2018;13(1):69–79. https://doi.org/10.21307/tp.2018.13.1.7
- [14] 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. Compos. Mater. 2022;29(1):227–241. https://doi.org/10.1515/secm-2022-0018
- [15] Trykoz L, Kamchatnaya S, Pustovoitova O, Atynian A, Saiapin O. Effective waterproofing of railway culvert pipes. Balt J Road Bridge Eng. 2019;14(4):473–83. https://doi.org/10.7250/bjrbe.2019-14.453
- [16] Sokolenko NM, Popov EV, Ruban IeV, Fastovietska IeV. Use of phenolic waste waters of coke-chemical virobites in the technology of plasticizing additives for concrete. Bulletin of Volodymyr Dahl East Ukrainian National University. 2016;5(229):14–8. https://core.ac.uk/download/pdf/84594119.pdf. Accessed 21 Jan 2021.
- [17] Gao F, Tian W, Cheng X. Investigation of moisture migration of MWCNTs concrete after different heating-cooling process by LF-NMR. Constr Build Mater. 2021;288. https://doi.org/10.1016/j.conbuildmat.2021.123146.
- [18] Bieliatynskyi A, Yang S, 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. Eur. J. Environ. Civ. Eng. 2022. https://doi.org/10.1080/19648189.2022.2110160.
- [19] Wang S, Tan KH. Flexural performance of reinforced carbon nanofibers enhanced lightweight cementitious composite (CNF-LCC) beams. Eng Struct. 2021;238:218–45. https://doi.org/10.1016/j.engstruct.2021.112221
- [20] Mahmoud AAM, Shehab MSH, El-Dieb AS. Concrete mixtures incorporating synthesized sulfonated acetophenone–formaldehyde resin as superplasticizer. Cem Concr Compos. 2010;32(5):392–7. https://doi.org/10.1016/j.cemconcomp.2010.02.005
- [21] Atynian AO, Trykoz LV, Bahiiants IV, Nykytynskyi AV. Effect of polymer additives on the strength and electrical resistance of concrete. Sci Constr Bull. 2019;98(4):244–250. https://doi.org/10.29295/2311-7257-2019-98-4-244-250
- [22] Belarouf S, Moufakkir A, Annaba K, Samaouali A, Rahier H. Experimental and numerical thermal properties of concrete materials modified with construction waste for building construction use. JP J Heat Mass Transf. 2022;27:113–32. https://doi.org/10.17654/0973576322027
- [23] Kudelko OA. Use of chemical additives in monolithic concrete and reinforced concrete structures. Bull Polotsk State Univ. 2010;12:27–37. https://elib.psu.by/handle/123456789/1327. Accessed 21 Jan 2021.
- [24] Federal Center for Rationing, Standardization and Conformity Assessment in Construction. Guidelines for designing protection against corrosion of concrete and reinforced concrete constructions. https://pdf.standartgost.ru/catalog/Data2/1/4293739/4293739405.pdf. Accessed 11 Dec 2021.
- [25] Bieliatynskyi A, Yang S, 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. https://doi.org/10.1016/j.conbuildmat.2022.126537.
- [26] Atynian A, Bukhanova K, Tkachenko R, Manuilenko V, Borodin D. Energy efficient building materials with vermiculite filler. Int J Eng Res Afr. 2019;43:20–4. https://doi.org/10.4028/www.scientific.net/JERA.43.20
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- [28] Osman RM, Al-Masry S. Effect of sulfonated acetone formaldehyde (SAF) on the firing resistance and aggressive attach of SRC-SF composite cement pastes. Am J Eng Appl Sci. 2015;8(2):249–62. https://doi.org/10.3844/ajeassp.2015.249.262
- [29] Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. (2022f). Peculiarities of the use of the cold recycling method for the restoration of asphalt concrete pavements. Case Stud. Constr. Mater. 2022;16. https://doi.org/10.1016/j.cscm.2022.e00877.
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- [32] Kozlova VK, Bozhok AV, Logvinenko VV, Sarkisov YuS, Ilyevsky YuA. Shrinking deformations of building materials and ways of their reduction. Bull Tomsk State Univ Archit Build. 2018;20(5):140–56. https://doi.org/10.31675/1607-1859-2018-20-5-140-155
- [33] Yang S, 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):458–466. https://doi.org/10.1515/polyeng-2021-0345
- [34] Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Study of crushed stone-mastic asphalt concrete using fiber from fly ash of thermal power plants. Case Stud. Constr. Mater. 2022;16. https://doi.org/10.1016/j.cscm.2022.e00877
- [35] 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.
- [36] Trykoz L, Kamchatnaya S, Borodin D, Atynian A, Tkachenko R. Protection of railway infrastructure objects against electrical corrosion. Anti-Corros Methods Mater. 2021;68(5):380–4. https://doi.org/10.1108/acmm-05-2021-2483
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dfc8040a-2f7a-427e-be5a-f6137814fcc7