Andrei Naumov, Aleksandr Dolzhencko, Maria Krutilova, Nikolay Simonov


Introduction: The paper analyzes an experimental load-bearing structure of hybrid cast-in-place and precast lowrise residential buildings using wall panels with polymer tube confined concrete elements. Due to the improvement of design and process solutions, it is possible to decrease the cost, reduce the material and resource intensity of individual housing construction, ensuring structural safety and long life of such buildings. Methods: The authors propose a method of manufacturing wall panels, involving industrial production of retained formworks made of polymer tubes and oriented strand board, as well as their subsequent assembly and concreting at a construction site. Results and discussion: Results of the study were provided to the New Technologies and Materials in Construction interdepartmental team of the Belgorod Region Department of Construction and Transport. The proposed method is recommended for testing at sites of individual housing construction in the Belgorod agglomeration, including construction financed from the budget.


Polymer tube confined concrete, tube confined concrete, retained formwork, frame construction, lightweight concrete.

Full Text:



Dolzhenko, A.V., Naumov, A.E., Shevchenko, A.V., Kara, K.A. (2017). Experimental study of actual operation of plastic tube concrete constructions. Advances in Engineering Research, Actual Issues of Mechanical Engineering (AIME 2017), 133, pp. 175–180. DOI: 10.2991/aime-17.2017.29.

Dolzhenko, A.V., Naumov, A.E., Shevchenko, A.E. (2018). Bearing capacity and rigidity of short plastic-concrete-tubal vertical columns under transverse load. IOP Conference Series: Materials Science and Engineering, 327, 042024. DOI: 10.1088/1757-899X/327/4/042024.

Huang, C.S., Yeh, Y.K., Liu, G.Y., Hu, H.-T., Tsai, K.-C., Weng, Y.-T., Wang, S.H., Wu, M.-H. (2002). Axial load behavior of stiffened concrete-filled steel columns. Journal of Structural Engineering, 128 (9), pp. 1222–1230. DOI: 10.1061/(ASCE)0733-9445(2002)128:9(1222).

Kara, K.A., Dolzhenko, A.V., Zharikov, I.S. (2018). Influence of processing factors over concrete strength. IOP Conference Series: Materials Science and Engineering, 327, 032027. DOI: 10.1088/1757-899X/327/3/032027.

Luksha, L.K. (1977). Strength of tube confined concrete. Minsk: Vysheyshaya Shkola, 96 p.

Sakino, K., Nakahara, H., Morino, S., Nishiyama, I. (2004). Behavior of centrally loaded concrete-filled steel-tube short columns. Journal of Structural Engineering, 130 (2), pp. 180–188. DOI: 10.1061/(ASCE)0733-9445(2004)130:2(180).

Sanzharovsky, P. S. (2000). Theory and analysis of the strength and stability of structural elements made of steel tubes filled with concrete. DSc Thesis in Engineering.

Schneider, S.P. (1998). Axially loaded concrete-filled steel tubes. Journal of Structural Engineering, 124 (10), pp. 1125–1138. DOI: 10.1061/(ASCE)0733-9445(1998)124:10(1125).

Serykh, I.R., Chernyshova, E.V. (2014). Steel concrete in modern construction. High-Tech Technologies and Innovations. International Scientific-and-Practical Conference dedicated to the 60th Anniversary of Shukhov Belgorod State Technological University. 21st Scientific Readings. Belgorod: Shukhov Belgorod State Technological University, pp. 112–115.

Shevchenko, A.V., Naumov, A.E., Dolzhenko, A.V. (2015a). Effective tube confined concrete structures for individual housing construction. Economics, Science, Manufacturing: Collection of Scientific Papers, 28. Moscow: Publishing House of Moscow State Technical University “MAMI”, pp. 40–43.

Shevchenko, A.V., Dolzhenko, A.V., Naumov, A.E. (2015b). Study of the strength of tube confined concrete in plastic tubes under central compression. Bulletin of Scientific Conferences, 3-4. Current Issues in Education and Science: Proceedings of the International Scientific-and-Practical Conference, November 30, 2015. Part 4. Tambov: OOO UCOM Consulting Company, pp. 172–175.

Uy, B. (2003). High-strength steel-concrete composite columns for buildings. Proceedings of the Institution of Civil Engineers - Structures and Buildings, 156 (1), pp. 3–14. DOI: 10.1680/stbu.2003.156.1.3.



  • There are currently no refbacks.


ISSN: 2500-0055