Experimental and numerical assessment of the flexural behaviour of semi-precast-reinforced concrete slabs

Mohamed, MI Sifan; Thamboo, Julian; Jeyakaran, Thuraisingam

doi:10.1177/1369433220904011

Cited by 26 publications

(14 citation statements)

References 37 publications

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“…Būdingiausios surenkamosios monolitinės perdangos plokštės su plastikiniais intarpais vietos, kuriose anksčiausiai susidaro plyšiai, yra atraminė zona (Hegger et al, 2003;Ji & Liu, 2020), plokštės surenkamajame sluoksnyje ties didžiausio lenkimo momento vieta (Mohamed et al, 2020) ir surenkamojo ir monolitinio betono sluoksnių jungtyje (Mohamed et al, 2020;Ibrahim et al, 2019). Irimas atraminėje zonoje ir betono sluoksnių jungtyje gali susidaryti dėl didelio lenkimo momento ir šlyties įtempių.…”

Section: įVadasunclassified

“…Kitų autorių tyrimų (Ibrahim et al, 2019;Stehle et al, 2011;Mohamed et al, 2020;Hegger et al, 2003) analizė parodė, kad galima išskirti tris tokio tipo plokščių darbo etapus. Pirmajame etape konstrukcija dirba tampriai, dar nėra pasireiškusios plastinės deformacijos.…”

Section: įVadasunclassified

“…8 paveikslas. Plokštės pleišėjimas didžiausio lenkimo momento vietoje(Mohamed et al, 2020) Figure8. Slab fl exural cracking(Mohamed et al, 2020) 9 paveikslas.…”

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Cracking Analysis of Precast – In Situ Reinforced Concrete Slab With Plastic Void Formers

Masėnas

2022

Science - Future of Lithuania

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In this article results of experimental and numerical analysis of precast – in situ reinforced concrete slab with plastic void formers are discussed. Slab is composed of precast and in situ concrete layers. Voids are formed inside the slab using spherical plastic void formers. Slab cracking pattern is determined by numerical analysis. Cracking pattern acquired by numerical analysis is compared to cracking pattern determined by experimental study. Shear stiffness in the bond between precast and in situ concrete layers was specified when numerical model was built.

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Section: įVadasunclassified

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Cracking Analysis of Precast – In Situ Reinforced Concrete Slab With Plastic Void Formers

Masėnas

2022

Science - Future of Lithuania

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“…It was reported that the ductility and toughness improved with the addition of steel fibre reinforced toppings to the precast concrete slab. Mohamed et al (2020) assessed the flexural performance of semi-precast slabs with in situ concrete slabs with different interface detailing and shear ties. The study reported that the type of surface treatment has pronounced influence on the flexural capacity of composite slab systems tested.…”

Section: Introductionmentioning

confidence: 99%

Behaviour of concrete composite slabs with truss type shear connectors of different orientation angle

Kanchanadevi

Ramanjaneyulu

Srinivas

2021

Advances in Structural Engineering

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Concrete composite slab system with pre-cast bottom segment and cast-in-situ top segment is gaining importance due to wide-ranging applications in buildings, bridges and industrial flooring, etc. These slabs may also be subjected to repeated loading during its service life and hence, it is essential to evaluate their static and fatigue behaviour under flexural loading. In present study, at first, experimental investigations are conducted to evaluate the performance of composite slabs with truss type shear connectors with two orientation angles, namely, 45° and 60°. The composite slab specimens are subjected to four-point bending. The load-versus-displacement responses obtained for the composite slabs are compared with that of control full slab. It is observed that the composite slab with 45° shear connector showed better performance when compared to composite slab with 60° shear connector in terms of load-displacement response, rotation, ductility and energy absorption and also found to be efficient in terms of area of steel crossing the interface. Further, numerical investigations are also carried out to assess load transfer mechanism of truss type shear connectors at different significant events. The force flow mechanism of truss type shear connectors is brought out clearly. From the numerical investigations on composite slabs with different orientation angles, it is observed that composite slab with 45° shear connector exhibited superior performance over other orientation angles in terms of better force flow mechanism and lesser area of steel crossing the interface. Further, fatigue performance of composite slab with 45° shear connector is evaluated and compared with the fatigue performance of control slab. It could be observed that the composite slab with 45° truss type shear connector showed better fatigue performance when compared to the control slab.

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“…A number of sources [ 1 , 4 , 7 , 8 , 9 ] provide that at the initial service stage of loads affecting the above introduced structures, both layers work and deform together until loads reach 50% of bearing capacity. Conventional structural analysis applies to the previously mentioned slabs because the slab has the same load-bearing capacity as a monolithic reinforced concrete slab of the solid cross-section [ 3 , 4 , 10 , 11 ].…”

Section: Introductionmentioning

confidence: 99%

Deflection Analysis of Layered Slabs with Plastic Inserts

et al. 2021

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The article deals with experimental and numerical research of the layered reinforced concrete slab with plastic inserts. The investigated layered reinforced concrete slab is made of prefabricated and monolithic reinforced concrete layers. Voids were formed in the plate with spherical plastic inserts. With reference to the built-up bars theory, the paper proposes an analytical method for calculating the deflection of the layered reinforced concrete structures in non-linear stage, when bond between layers is partially rigid. The article also focuses on the numerical simulation of the layered slab, compares the estimated theoretical values of deflection with the experimental values and assesses the shear stiffness of the bond of prefabricated and monolithic concrete layers for calculating the deflection of the reinforced concrete slab. Paper presents the parametric analysis of deflection dependence on shear stiffness and the width of the contact zone of the layers. It was established that proposed analytical method and numerical analysis properly characterise the behaviour of the slab. Calculation results were close to experimental data. Moreover, it was determined that performance of this type of slab is highly influenced by shear stiffness of the bond between the concrete layers. Analysis confirmed that slab fails when bond is damaged, and layers slip in the support zone.

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Experimental and numerical assessment of the flexural behaviour of semi-precast-reinforced concrete slabs

Cited by 26 publications

References 37 publications

Cracking Analysis of Precast – In Situ Reinforced Concrete Slab With Plastic Void Formers

Cracking Analysis of Precast – In Situ Reinforced Concrete Slab With Plastic Void Formers

Behaviour of concrete composite slabs with truss type shear connectors of different orientation angle

Deflection Analysis of Layered Slabs with Plastic Inserts

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