AbstractAbout AuthorsReferences
The technological process of constructing a monolithic reinforced concrete frame includes the selection of the composition of the concrete mix and the mode of heat treatment to achieve 100% of the design strength at a theoretical temperature of 80оC. At the same time to remove residual stresses based on the results of heat treatment a solution for reducing the heating temperature is included in the technical process of warming up. The original technique and special measures of rapid strength gain of monolithic concrete developed by the authors and used for high-speed construction of monolithic buildings under low temperature conditions, made it possible, when constructing a residential building with a monolithic bearing frame in the micro-district “Raduzhny”in Cheboksary in 2012, to build a building cage with brick enclosing structures at the rate of “40 floors – in 40 working days”. This technology was tested when constructing the city of Tsiolkovsky of the “Vostochny” Cosmodrome (Amur Oblast).
A.A. BATYUSHENKO1, Engineer;
N.S. SOKOLOV2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
N.S. SOKOLOV2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 FGUP “Spetsstroytekhnologii” at Spetsstroy of the Russian Federation (Tsiolkovsky City, Amur Oblast, 676470, Russian Federation)
2 I.N. Ulianov Chuvash State University (15, Moskovsky Prospect, Cheboksary, 428015, Chuvash Republic, Russian Federation)
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2. Samuskevich V., Koshevar V. Chemical additives in the technology of monolithic concrete. Nauka i innovatsii. 2011. No. 6 (100), рp. 18–20. (In Russian).
3. Terentyev O.M. Tekhnologiya vozvedeniya zdanii i sooruzhenii [Technology of construction of buildings and structures]. Rostov-on-don: Phoenix. 2006. 223 p.
4. Akulova I.I., Chernyshev E.M., Praslov V.A. Forecasting the development of the regional construction complex: theory, methodology and applied tasks. Voronezh: VSTU, 2016. 162.
5. Kuzevanov D.V., Belyaev A.V. Information modeling of reinforced concrete struct. Promyshlennoe i grazhdanskoe stroitel’stvo. 2017. No. 1, рp. 58–63. (In Russian).
6. Zemlyakov G.V. Modeling of the process of heat treatment of concrete monolithic structures. Nauka i tekhnika. 2015. No. 6, рp. 37–43. (In Russian).
7. Khayutin Yu.G. Monolitnyi beton [Monolithic concrete]. Moscow: Stroyizdat. 1981. 236 p.
8. Gitushkin V. G. The Strength and diagnosis of concrete monolithic vertical structures. Nauchnaya diskussiya: voprosy tekhnicheskikh nauk. 2016. No. 5 (35), рp. 48–61. (In Russian).
9. Kozelkov M.M., Antipov S.S. life cycle Management of load-bearing structures of monolithic reinforced concrete buildings using information modeling technology. Beton i zhelezobeton. 2016. No. 1, рр. 12–15. (In Russian).
10. Sassone M., Casalegno C. Evaluation of the structural response to the time-dependent behaviour of concrete. Part 2. A general computational approach. The Indian Concrete Journal. 2012. Vol. 86. No. 12, рp. 39–51.
11. Komarinskij M.V., Oniskovec R.V., Ostarkova O.A. Concreting of densely reinforced structures with cast mixtures. Stroitel’stvo unikal’nyh zdaniy i sooruzheniy. 2017. No. 2 (53), pp. 29–41. (In Russian).
12. Komarinskiy M.V., Chervova N.A. Transportation of concrete mix in the construction of unique buildings and structures. Stroitel’stvo unikal’nyh zdaniy i sooruzheniy. 2015. No. 1 (28), pp. 6–31. (In Russian).
13. Kolchedancev L.M., Osipenkova I.G. Features of organizational and technological decisions in the course of construction of high-rise buildings. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2013. No. 11, pp. 17–19. (In Russian).
14. Slavcheva G.S., Shvedova M.A., Babenko D.S. Analysis and criteria assessment of rheological behavior of mixes for construction 3-D printing. Stroitel’nye Materialy [Construction Materials]. 2018. No. 12, pp. 34–40. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2018-766-12-34-40
15. Kaklyugin A.V. Comparative assessment of pressureforming concrete corrosion. Vibration-free methods of forming reinforced concrete products: a Collection of scientific papers. Rostov-on-Don: RSAC. 1992. pp. 51–57. (In Russian).
16. Kolchedancev L.M., Volkov S.V. Organizational-technological solutions for transporting concrete mix to place of concreting of high-rise buildings structures. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2015. No. 11. pp. 21–26. (In Russian).
17. Batyushenko A.A., Sokolov N.S. Reducing the construction time of buildings made of monolithic concrete. Stroitel’nye Materialy [Construction Materials]. 2020. No. 3, pp. 49–53. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2020-779-3-49-53
For citation: Batyushenko A.A., Sokolov N.S. Accelerated construction of monolithic structures of a building under low temperature conditions. Stroitel’nye Materialy [Construction Materials]. 2020. No. 4–5, pp. 29–31. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2020-780-4-5-29-31