Design of modified prefabricated beamless floors for multi-storey residential buildings

Authors

DOI:

https://doi.org/10.26906/znp.2022.58.2858

Keywords:

beamless floor, residential building, reinforced concrete

Abstract

 

The article presents an example of the implementation of the structures of the prefabricated beamless floor system using modified reinforced concrete slabs for a multi-story residential building. A comparative analysis of the effectiveness of the proposed prefabricated beamless floor using modified round hollow slabs with a monolithic reinforced concrete floor was performed. The results of the evaluation of the technical and economic efficiency of the presented floor indicate its competitiveness comparing with traditional structures

References

Lapenko A. (2009). Reinforced concrete structures with working reinforcement fixed formwork. Poltava: АСМІ

Onishchenko O.G., Pichugin S.F., Onishchenko V.O., Storozhenko L.I., Semko O.V., Slyusarenko Yu.S., Yemelyanova I.A., Landar O.M. (2010). Highly efficient technologies and complex designs in industrial and civil construction. Poltava: PH “Formika”

Storozhenko L.I., Yermolenko D.A., Nyzhnyk O.V., Bogosta V.I., Tegza I.I. (2014). New effective solutions for beamless prefabricated floors of multi-story buildings Academic journal. Industrial Machine Building, Civil Engineering, 3(42)-1, 183-187

Storozhenko L.I., Nyzhnyk O.V., Murza S.O., Tegza I.I. (2015). Precast beamless floor using modified circular hollow plates. Construction, materials science, mechanical engineering, 69, 231-236

Tegza I.I. (2020). Precast beamless reinforced concrete floor using modified round hollow plates (Dis ... candidate technical of science). National University «Yuri Kondratyuk Poltava Polytechnic», Poltava

Epaarachchi D.C, Stewart M.G., Rosowsky D.V. (2002). Structural Reliability of Multistory Buildings during Con¬struction. Journal of Structural Engineering, 128, 205-213

Johnson R.P. (2004). Composite Structures of Steel and Concrete: Beams, Slabs, Columns, and Frames for Buildings. Wiley-Blackwell

Häußler-Combe U. (2008). Zur Theorie der Stabwerk-modelle im Stahlbetonbau. Bauingenieur, 83, 186-197

Muttoni A. (2008). Punching Shear Strength of Reinforced Concrete Slabs without Transverse Reinfor-cement. ACI Structural Journal, Technical Paper July-August, 440-450

Silva R.J., Regan P.E. (2005). Punching resistance of unbonded post-tensioned slabs by decompression methods. Structura Concrete, 1, 9-21

DBN V.2.2-15:2019 (2019). Residential buildings. substantive provisions. Kyiv: Ministry of Regional Development, Construction and Housing and Communal Services of Ukraine

Fraqiacomo M., Amadio C, Macorini L. (2004). Model for Collapse and Long-Term Analysis of SteelConcrete Composite Beams. Journal of Structural Engineering, 3, 489-497

Johnson R.P. (2004). Composite Structures of Steel and Concrete: Beams, Slabs, Columns, and Frames for Buildings. Wiley-Blackwell

Leon R.T., Rassati G.A., Perea T. (2011). Composite Construction in Steel and Concrete VI. American Society of Civil Engineers

Downloads

Published

2022-08-29

How to Cite

Yermolenko, D., Nyzhnyk, O., Tehza, I., & Yefimenko, O. (2022). Design of modified prefabricated beamless floors for multi-storey residential buildings. Збірник наукових праць Галузеве машинобудування будівництво Academic Journal Industrial Machine Building Civil Engineering, 1(58), 40–46. https://doi.org/10.26906/znp.2022.58.2858

Issue

Vol. 1 No. 58 (2022): ACADEMIC JOURNAL Industrial Machine Building, Civil Engineering

Section

"Construction and civil engineering"