High-Mobility Concrete Mixes for Concrete-Filled Steel Tube Structures of Complex Cross-Section

  • Authors

    • Viktor Sopov
    • Viktor Dolgiy
    • Kateryna Latorets
    • Yurii Zhuravlov
    2018-10-13
    https://doi.org/10.14419/ijet.v7i4.8.27259
  • concrete-filled steel tubes, concrete mixes, mobility, viscosity, chemical additives, mineral additives, injection.
  • Currently, in the technology of concrete and reinforced concrete, a period of revolutionary leap is observed, caused mainly by the use of high-strength and composite materials, complex high-performance chemical and mineral admixtures, disperse reinforcement, etc. In conditions of increased requirements for economy, lower consumption of metal, cement and forest materials, Interest in the builders causes concrete-filled steel tubes.

    The main requirements for concrete-filled steel tubes and concrete mixtures for its manufacture are considered. The specific features of the selection of the composition of concrete-filled steel tubes are shown. The technique of selection of compositions and results of researches of properties of concrete mixes and concrete-filled steel tubes is presented.

     


     
  • References

    1. [1] Shams M., Saadeghvaziri M.A., "State of the art of concrete-filled steel tubular columns", ACI Structural Journal 94 (5), (1997), рр. 558-571.

      [2] Storozhenko L.I. Trubobeton, Poltava: TOB ASMG, (2010), 306 s.

      [3] Baron J. “Essai sur une vue d'ensemble de la fissuration spontanee accidentelle du beton hydraulique non arme et armeâ€, Bull. Liais. Lab. Ponts et chausses, â„–87, (1977), pp. 69-78.

      [4] Yuhnevskiy, P.I. Vliyanie himicheskoy prirodyi dobavok na svoystva betonov, Minsk: BNTU, (2013), 310 s.

      [5] Volkov, V.A. Kolloidnaya himiya (poverhnostnyie yavleniya i dispersnyie sistemyi), M.: MGTU im. A.N. Kosyigina, (2001), 640 s.

      [6] Bazhenov, Yu. M., Demyanova B. C., Kalashnikov V. I. “Modifitsirovannyie vyisokokachestvennyie betonyiâ€, Nauchnoe izdanie, M.: Izdatelstvo Assotsiatsii stroitelnyih vuzov, (2006), pp. 328-337.

      [7] Tattrsall, G. Banfill, P. The Rheology of Fresh Concrete, London, Pitman, (1983), 356 p.

      [8] Banfill, P. “Rheology of fresh cement and concreteâ€, Rheology Reviews, (2006), pp. 61 - 130.

      [9] Jodeh, S.A., Nassar, G.E. “Pumpability assessment of C90 SCCâ€, Proc 2nd Int Conf Adv Concr Technol Middle East: Self-Consolid Concr, Abu Dhabi, (2009), pp 155–176.

      [10] Feys, D., Verhoeven, R., De Schutter, G., “Parameters influencing pressure during pumping of self-compacting concreteâ€, Materials and Structures, January, (2013), p.p. 533-555.

      [11] Benaicha, M., Jalbaud, O., Hafidi Alaoui, A., Burtschell, Y., “Correlation between the pumping and the rheological properties of self-compacting concrete: a practical study†International Journal of Engineering and Technical Research (IJETR), Volume-1, Issue-8, (2013), p.p. 62-67.

      [12] Sopov V., Dolgiy V. “The properties of concrete mixes, pumped over long distancesâ€. Matec WEB of Conferences, 6th International Scientific Conference “Reliability and Durability of Railway Transport Engineering Structures and Buildings†(Transbud-2017), Volume 116, (2017). – 01017. – pp. 1-7. DOI: 10.1051/matecconf/201711601017.

      [13] Batrakov, V.G. Modifitsirovannyie betonyi. Teoriya i praktika, M.: Tehnoproekt, (1998), 768 s.

      [14] Izotov, V.S., Sokolova Yu.A., Himicheskie dobavki dlya modifikatsii betona, Kazanskiy Gosudarstvennyiy arhitekturno-stroitelnyiy universitet: Izdatelstvo «Paleotip», (2006), 130 s.

      [15] Vovk, A.I. „Adsorbtsiya-superplastifikatorov na produktah gidratatsii mineralov portlandtsementnogo klinkera. Zakonomernosti protsessa i stroenie adsorbtsionnyih sloevâ€, Kolloidnyiy zhurnal. T.62, No2, (2000), pp. 11-16.

      [16] Sugiyama, T., Ohta, A., Uomoto, T., “The dispersing mechanism and applications of polycarboxylate-based superplasticisersâ€, Proc. 11th Int. Congr. on the Chemistry of Cement, Durban, South Africa, (2003), pp. 560-568.

      [17] Allan, M.L. Latex-modified groutes for in-situ stabilization of buried transuranic/mixed waste, New York., Brookhaven National Laboratory, (1996), 32p.

      [18] Aitcin, P. C., High-Performance Concrete, E & FN Spon, Routledge, London, (1998).

      [19] Usherov-Marshak A.V., Sopov V.P., “Betonyi novogo pokoleniya: osnovyi polucheniya i perspektivyi razvitiyaâ€, Naukoviy visnik budivnitstva, No55, (2009), pp. 231-239.

      [20] Kalashnikov, V.I. “Kapillyarnaya usadka vyisokoprochnyih reaktsionno- poroshkovyih betonov i vliyanie masshtabnogo faktoraâ€, Stroitelnyie materialyi, No5, (2010), pp.52-53.

      [21] Kalashnikov, V.I., “Cherez ratsionalnuyu reologiyu ‒ v buduschee betonovâ€, Tehnologiya betonov, No6. 4.2, (2007), pp. 8-10.

      [22] Minakov S.V., Vliyanie elektropoverhnostnyih svoystv mineralnyih dobavok na effektivnost razzhizhiteley tsementnyih sistem: dis. na soiskanie uchenoy stepeni kandidata tehnicheskih nauk, Belgorodskiy gosudarstvennyiy tehnologicheskiy universitet im. V.G. Shuhova, Belgorod, (2011).

      [23] Ivaschenko, S.I., Komar, A.G., “Issledovanie vliyaniya mineralnyih i organicheskih dobavok na svoystva tsementov i betonovâ€, Izvestiya vuzov. Stroitelstvo, No9, (1993), pp.16- 19.

      [24] Zotkin, A.F. “Effektyi ot mineralnyih dobavok v betoneâ€, Tehnologiya.betonov, No4, (2007), pp.10-12.

      [25] Dauksys, M, Skripkiunas G., Ivanauskas E., “Microsilica and Plasticizing Admixtures Influence on Cement Slurry Dilatancyâ€, Materials science (Medžiagotyra), Vol. 14, No. 2, (2008), pp. 143-150.

      [26] Piskunov, V. G., Goryk, A. V., & Cherednikov, V. N. (2000). Modeling of transverse shears of piecewise homogeneous composite bars using an iterative process with account of tangential loads. 1. construction of a model.Mechanics of Composite Materials, 36(4), 287-296. https://doi.org/10.1007/BF02262807

      [27] Kochkarev, D., & Galinska, T. (2017). Calculation methodology of reinforced concrete elements based on calculated resistance of reinforced concrete. Paper presented at the MATEC Web of Conferences, , 116 https://doi.org/10.1051/matecconf/201711602020

      [28] Leshchenko, M. V., & Semko, V. (2015). Thermal characteristics of the external walling made of cold-formed steel studs and polystyrene concrete. Magazine of Civil Engineering, 60(8), 44-55. https://doi.org/10.5862/MCE.60.6

      [29] Semko, O., Yurin, O., Avramenko, Y., & Skliarenko, S. (2017). Thermophysical aspects of reconstruction of cold roof spaces. Paper presented at the MATEC Web of Conferences, , 116 https://doi.org/10.1051/matecconf/201711602030

  • Downloads

  • How to Cite

    Sopov, V., Dolgiy, V., Latorets, K., & Zhuravlov, Y. (2018). High-Mobility Concrete Mixes for Concrete-Filled Steel Tube Structures of Complex Cross-Section. International Journal of Engineering & Technology, 7(4.8), 295-300. https://doi.org/10.14419/ijet.v7i4.8.27259