Antonina Yudina, Rafael Oganyan


At the present time, the problem of structure concreting at negative temperatures is particularly sensitive. One of winter concreting methods is electrical heating of structures with the help of heating cable. The paper presents the analysis of existing studies of the concrete curing technology with electric cable upon winter concreting and criteria for selecting the equipment and materials for heating; organizational and technological diagrams were developed for winter concreting of structures with application of concrete heating with electric cable. Recommendations for the selection
of heating elements and wiring schemes are given, based on the requirements for improvement of work performance, optimization and rational use of labor and material resources, reduction of time for auxiliary works. Risks, associated with the winter concreting technology with the use of heating cable, were assessed within the framework of the paper.


Winter concreting, electric curing, heating cable, heating parameters

Full Text:



Doladov, Y.I. (2013). Progrev betona greiushchim provodom v usloviiakh rekonstruktcii obekta [Concrete heating with heating cable during reconstruction of an object]. In: Proceedings of the 71st All-Russian Scientific and Technical Conference "Traditions and innovations in construction and architecture". Samara, pp. 922–923. (in Russian)

Golovnev, S.G. (2004). Tekhnologiia zimnego betonirovaniia [Technology of concrete works in winter]. Chelyabinsk: Publishing House of the South Ural State University, p.70. (in Russian)

Golovnev, S.G. (1999). Tekhnologiia betonnykh rabot v zimnee vremia [Optimization of parameters and selection of methods]. Chelyabinsk: Publishing House of the South Ural State University, p.156. (in Russian)

Khayutin, Y.G. (1966). Monolitnyi beton [Monolithic concrete]. Moscow: Stroyizdat, p.175. (in Russian)

Krasnovsky, B.M. (2007). Inzhenerno-fizicheskie osnovy metodov zimnego betonirovaniia [Engineering and physical foundations of winter concreting methods]. Moscow: Publishing House of the State Academy for Specialists in Investment Sphere, p.512. (in Russian)

Krylov, B.A. (1975). Elektroprogrev i elektroobogrev betona [Electric heating of concrete]. Moscow: Stroyizdat, p.264. (in Russian)

Mironov, S.A. (1975). Teoriia i metody zimnego betonirovaniia [Theory and methods of winter concreting]. Moscow: Stroyizdat, p.700. (in Russian)

Molodin, V.V., Lunev, Y.V. (2006). Betonirovanie monolitnykh stroitelnykh konstruktcii v zimnikh usloviiakh [Concreting of monolithic building structures in winter]. Novosibirsk: Novosibirsk State University of Architecture and Civil Engineering (Sibstrin), p.300. (in Russian)

Mosakov, B.S. (2006). Tekhnologiia zimnego betonirovaniia: uchebnoe posobie [Technology of winter concreting: textbook]. Novosibirsk: Publishing house of the Siberian Transport University, p.144. (in Russian)

Pikus, G.A., Mozgalev, K.M. (2014). Otcenka neobkhodimogo kolichestva kontrolnykh temperaturnykh tochek pri vyderzhivanii monolitnykh plitnykh konstruktcii v zimnee vremia [Estimation of the necessary number of control temperature points during aging of monolithic raft constructions in winter]. Academic Bulletin of UralNIIproekt of the Russian Academy of Architecture and Construction Sciences, 3, pp.70–71. (in Russian)

Central Research and Design Institute of Organization, Mechanization and Technical Assistance to Construction (TSNIIOMTP) (1989). Recommendations on electric heating of monolithic concrete and reinforced concrete with heating cables. Moscow: Publishing House of TSNIIOMTP, p.67. (in Russian)

Yudina, A.F., Verstov, V.V., Badyin, G.M. (2015). Tekhnologicheskie protcessy v stroitelstve [Engineering processes in construction]. Moscow: Publishing Center “Academy”, p.304. (in Russian)



  • There are currently no refbacks.


ISSN: 2500-0055