Service and Ultimate Behaviour of Slim Floor Beams: An Experimental Study

In this research work existing laboratory tests of slim floor beams with solid monolithic concrete slab were modeled and analyzed using GID and Atena software. After validating the advanced finite element model with the test results of the international literature, structural parameters were analyzed with the aim to study their influence on the load bearing and deformation capacity of the beams. The parameters were related to the geometric of the beam: size of web openings and top concrete cover. With these results conclusion can be noticed that focusing on the optimal arrangement of the geometrical parameters of the composite beam could lead to better structural behavior with more economical solutions.

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“…So, the load bearing behavior is controlled by the concrete component, the dowel action of the tie bar and the friction. [8,17,18].…”

Section: Types Of Composite Floor Systemsmentioning

confidence: 99%

Numerical analysis of composite slim-floor beams

Mefleh

Kovács

2022

Pollack

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“…Sheehan et al [19] analyzed the degree of shear connection of steel bars and their resistance capacity through shear and bending tests and observed the number of steel bars that passed the beam openings directly influenced the system's flexural strength. Baldassino et al [20] experimentally evaluated CoSFB's in-service behavior, and observed the final response was affected by concrete´s curing time and creep effects.…”

Section: State Of Artmentioning

confidence: 99%

Numerical investigation on slim floors: comparative analysis of ASB and CoSFB typologies

Borghi

Oliveira

Debs

2021

Rev. IBRACON Estrut. Mater.

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Innovative composite structures have been intensively studied towards meeting the demands of civil construction. An example of such structures is slim floor, comprised of concrete or composite slabs positioned at the height of steel beams, reducing the total height of the floor. In Brazil, studies on this system are still in early stages, and due to the lack of both experience and national normative codes, it is hardly used in civil construction. Given the possible combinations between concrete slabs and steel beams, the system exhibits different typologies. This article reports a numerical investigation on two typologies of slim floor, namely Asymmetric Slimflor Beam (ASB), composed of an asymmetric I beam, and Composite Slim-Floor Beam (CoSFB), comprised of an asymmetric beam with small openings at the top of its web. Nonlinear numerical models of ASB and CoSFB typologies were developed by Finite Element-based software ABAQUS®. The models were calibrated with the use of experimental studies from the literature, and showed high accuracy and good results. After calibration, the materials properties and geometric dimensions of the models, such as height and thickness, were standardized for a comparison of the typologies. The comparative analysis showed the particular characteristics of CoSFB promoted higher stiffness and flexural capacity compared to ASB, and a parametric analysis evaluated the influence of steel and concrete parameters on the flexural behavior of the typologies. The parametric study revealed the steel parameters exerted a more substantial influence on the slim floors behavior than the concrete ones.

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“…Transverse bars that passed through the holes in the steel beam web proved to be effective shear connectors and the size of the web hole affected the overall resistance [7]. The authors Baldassino et al [8], in their research, highlighted that creep effects did not influence the ultimate behaviour of the beam with the adopted geometric layout. Strain measurements recorded across the width of the slab at mid-span revealed that shear-lag effects played an important role in the flexural response.…”

Section: Introductionmentioning

confidence: 99%

Research on the Efficiency of Composite Beam Application in Multi-Storey Buildings

2020

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Over the past decade, several types of composite slim floor constructions have been used in multi-storey buildings in Lithuania. In order to study the efficiency of composite beam application in steel-framed multi-storey buildings, Thorbeam (A1), Deltabeam (A2), slim floor beam (A3) and asymmetric slim floor beam (A4) were chosen and evaluated according to nine assessment criteria (beam cost (K1), initial preparation on site (K2), installation time (K3), complexity of installation technology (K4), labour costs (K5), fire resistance (K6), load bearing capacity (K7), beam versatility (K8), and availability of beams (K9)). First, the significance of the rating criteria was selected and the order of the ranking criteria was obtained (K1˃K7˃K3˃K6˃K4˃K5˃K2˃K8˃K9) by means of a survey questionnaire. Second, the beams were ranked according to the points given by the questionnaire respondents as follows: 160 points were given to A2, 144 points to A1, 129 points to A4, and 111 points to A3. Deltabeam is considered to be the most rational alternative of the four beams compared. Calculations done using the Technique for Order Preference by Similarity to an Ideal Solution (TOPSIS) analysis method revealed that composite beam A2 was the best slim floor structure alternative for an eight-storey high-rise commercial residential building frame, A1 ranked second, A4 ranked third, and A3 ranked fourth. In addition, the four composite beams were compared to a reinforced concrete beam (A5) according to three assessment criteria (beam cost including installation (C1), beam self-weight (C2) and fire resistance (C3)). Deltabeam was found to be efficient for use as a slim floor structure in a multi-story building due to having the lowest cost, including installation, and self-weight, and the highest fire resistance compared to other composite beams studied. Although Deltabeams are 1.4 times more expensive than reinforced concrete beams, including installation costs, they save about 2.5% of the building’s height compared to reinforced concrete beams.

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Service and Ultimate Behaviour of Slim Floor Beams: An Experimental Study

Cited by 7 publications

References 20 publications

Numerical analysis of composite slim-floor beams

Numerical analysis of composite slim-floor beams

Numerical investigation on slim floors: comparative analysis of ASB and CoSFB typologies

Research on the Efficiency of Composite Beam Application in Multi-Storey Buildings

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