Experimental study on flexural behavior of GFRP reinforced concrete slabs

Voided slabs are reinforced concrete slabs in which voids allow to reduce the amount of concrete. The bubbled deck slab is a new and sustainable biaxial floor system to be used as a self-supporting concrete floor. The use of voided slabs leads to decrease the consumption of materials and improve the insulation properties for enhancing the objectives of sustainability. This study presents an investigation into the flexural behavior of sustainable Reactive Powder Concrete RPC bubbled slab flooring elements. Six one-way slabs were cast and tested up to the failure. The adopted variables in this study are: the volumetric ratio of steel fibers, type of slab; bubbled or solid, placing of reinforcement and thickness of slab. The effect of each variable on the ultimate load, deflection and strain has been discussed. The results show that increasing the percent of steel fibers from 1% to 2% in solid and bubbled slabs decreases the deflection by (18.75%) and (50%) respectively. As well as, the deflection increases by (41%) for bubbled slab compared to the solid slab. The slabs reinforced with top and bottom steel meshes show less deflection than slabs reinforced by only bottom steel mesh.

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Flexural behavior of fanpalm reinforced concrete slabs

Journal of Building Engineering ◽

10.1016/j.jobe.2017.07.005 ◽

2017 ◽

Vol 13 ◽

pp. 63-67

Author(s):

M.T. Audu ◽

A.A. Raheem

Keyword(s):

Reinforced Concrete ◽

Flexural Behavior ◽

Concrete Slabs ◽

Reinforced Concrete Slabs

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Experimental study of solid RC slabs strengthened on the upper surface

Revista IBRACON de Estruturas e Materiais ◽

10.1590/s1983-41952018000200003 ◽

2018 ◽

Vol 11 (2) ◽

pp. 255-278

Author(s):

C. O. CAMPOS ◽

L. M. TRAUTWEIN ◽

R. B. GOMES ◽

G. MELO

Keyword(s):

Experimental Study ◽

Reinforced Concrete ◽

Failure Load ◽

Concrete Strength ◽

Reinforcement Rate ◽

Concrete Slabs ◽

Minimum Reinforcement ◽

Reinforced Concrete Slabs ◽

Load Limit ◽

Rc Slabs

Abstract The current study presents the results of tests conducted in 5 reinforced concrete slabs (415 cm x 415 cm x 7 cm) in order to experimentally check the possibility of reinforcing their upper surface, as well as to assess the adhesion between the old and the reinforcing concrete layers in the slab. The main variables were the concrete and reinforcement strength deficiencies. Reference slab “L1” was tested until reaching the failure load, whereas the others were tested until reaching certain load limit, reinforced and retested until reaching the failure load. All slabs failed under bending. The strengthening increased the failure load by 30% in slabs reinforced at minimum reinforcement rate when they were compared to similar non-reinforced slabs, regardless of the original concrete strength. None of the tests conducted in the reinforced slabs showed detachments or evidence of adhesion loss between the old and reinforcing concretes.

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Flexural Behavior of Reinforced Concrete Slabs Reinforced with Innovative Hybrid Reinforcement of Geogrids and Steel Bars

Buildings ◽

10.3390/buildings10090161 ◽

2020 ◽

Vol 10 (9) ◽

pp. 161

Author(s):

Ramy Nasr Abdelmonem Mohamed ◽

A.M. El Sebai ◽

Ahmed Shaban Abdel-Hay Gabr

Keyword(s):

Reinforced Concrete ◽

Peak Load ◽

Absorption Capacity ◽

Flexural Behavior ◽

Concrete Slabs ◽

Displacement Ductility ◽

Reinforcement System ◽

Reinforced Concrete Slabs ◽

Steel Bars ◽

Hybrid Reinforcement

This paper aims to innovate a hybrid reinforcement system for concrete slabs, consisting of geogrids and steel bars, by conducting an experimental comparative study between using different types, tensile strengths, and layers of geogrids as additional reinforcement to steel bars in comparison to conventional steel-reinforced concrete control slab. These concrete slabs were tested under a four-point loading system until they failed due to bending. As an addition, strain gauges were attached to the concrete slabs bottom reinforcement (geogrids and steel bars) to provide a close examination of geogrids and steel bars as a hybrid reinforcement system. Results show that the innovated hybrid reinforcement system of uniaxial geogrids and steel bars more preferred as concrete slabs reinforcement as it provided more benefits values (including, but not limited to, initial-peak load, steel-yield load, post-peak load, displacement ductility index, and energy absorption capacity) and more efficient utilization (including, but not limited to, higher benefits to cost values and better flexural performance) than the case of using conventional reinforcement of steel bars and the cases of using triaxial geogrids as additional reinforcement to the steel bars; however, triaxial geogrids provide lower deflection values and higher first-crack load values.

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