Experimental and theoretical studies of biaxially prestressed steel-fiber-concrete slabs.


Oleksandr Zhuravskyi 1*,
    Andriy Gorobetc 2
1,2Department of Reinforced Concrete and Stone Structures of Kyiv National University of Construction and Architecture. 
Received: 09/20/2018, Accepted: 10/03/2018, Available online: 10/03/2018. 
DOI: 10.32557/useful-2-3-2018-0003
*Corresponding author: e-mail: azhur@ua.fm, address: Povitroflotsky Avenue, 31, Kyiv, 03680 Ukraine
Under a creative commons license. Volume 2, Issue 3, 2018, pages: 10-14.

 
     

 

Author Keywords: Innovation, investment climate, production-economic systems, innovation idea, strategic development, transport sector, economy, innovations.

Abstract

The article presents the results of experimental and theoretical studies of strength and deformability of steel-fiber concrete double-sided pre-stress slabs under the action of transverse loading. The simulation of such plates in the software complex LIRA-SAPR was performed taking into account the physical nonlinearity of materials.

Introduction

In connection with the search for new high-strength materials with high deformation characteristics, materials are now becoming increasingly popular with the use of composite impurities. These materials include steel-fiber reinforced concrete, which is characterized by increased bending strength and high deformability. These characteristics are very important for modern construction, which is characterized by an increase in spans and a decrease in the weight of building structures. The use of large-sized elements in the form of plates, panels are economically proven. It is also proved that the use of biaxial structures is most appropriate. Therefore, the study of strength and deformation characteristics of double-sided pre-stressed steel-fiber reinforced concrete slabs is a rather actual and practically unresolved problem.


References

[1] Bocharnikov A.S., Korneev A.D., 2005. The zone of interaction of systems "concrete - steel fiber" in steel-fiber concrete and the rational degree of disperse reinforcement of fine-grained concrete. Construction materials, equipment, technologies of the XXI century, 79 (8), pp.58-59. | Available at: http://bit.ly/2zO9F66

[2] Gorobets A.M., Zhuravskyi O.D., 2007. Experimental-theoretical studies of losses of the previous tension in steel-fiber-reinforced structures with one-piece and two-axis bending. The theory and practice of construction: The Bulletin of the National University "Lviv Polytechnic", 600, pp. 68-74. | Available at: http://bit.ly/2yalG3E


[3] Gorobets A.M., Zhuravskyi O.D., 2017. Strength and fissure strength of two-tier pre-stressed steel-fiber reinforced concrete plates with transverse bending. Building structures. Theory and practice: Collection of scientific works, 1, pp. 181-186.


[4] Korotyshevsky O.V., 2003. The calculation of steel-fiber reinforced concrete on the strength of axial stretching and tensile bending. Construction materials, 8, pp. 31-33.


[5] Lysenko E.F., Hetun G.V., 1989. Design of steel-reinforced concrete structures. Study allowance, 189.


[6] Milovidov K.I., Mishukov N.E., 1980. Rational areas of application of fiber reinforced concrete in structures. Concrete and reinforced concrete, 5, pp. 29-30


[7] D.A.Gorodetsky, M.S.Barabash, R.Yu.Vodopianov, and others, 2013. Program complex LIRA-SAPR. Training manual edited by A.S. Gorodetsky, p.376.


[8] Rabinovich F.N., 1989. Disperse-reinforced concrete, p.176.


[9] Talantova K.V., 2003. Fundamentals for the production of steel-reinforced concrete structures with specified properties. Concrete and reinforced concrete, 5, pp. 4-8.


[10] Cernant A.A., 2004. Estimation of the efficiency of steel-fiber-reinforced concrete structures in the operational period. Transport construction, 10, pp. 31-32.


Please cite as: O. Zhuravskyi and A. Gorobetc, “Experimental and theoretical studies of biaxially prestressed steel-fiber-concrete slabs.,” USEFUL online journal, vol. 2, no. 3, pp. 10–14, Oct. 2018. DOI: https://doi.org/10.32557/useful-2-3-2018-0003




 

Comments