Different load bearing mechanisms in headed stud shear connectors for composite beams with profiled steel sheeting

Push-out tests (POTs) have been widely exploited as an alternative to the more expensive full-scale bending tests to characterize the behaviour of shear connections in steel-concrete composite beams. In these tests, two concrete slabs are typically attached to a steel section with the connectors under investigation, which are then subjected to direct shear. The results allow quantifying the relationship between applied load and displacements at the steel-concrete interface. Since this relationship is highly influenced by the boundary conditions of POT samples, different experimental setups have been used, where the slabs are either restricted or free to slide horizontally, as researchers have tried to reduce any discrepancy between POT and full-scale composite beam testing. Based on a critical review of various POT configurations presented in the dedicated literature, this paper presents an efficient one-sided POT (OSPOT) method. While OSPOT and POT specimens are similar, in the proposed OPSPOT setup only one of the two slabs is directly loaded in each test, and the slab is free to move vertically. Thus, two results can be obtained from one specimen, i.e. one from each slab. A series of POTs and OSPOTs have been conducted to investigate the behaviour and the shear resistance of headed stud connectors through the two methods of testing. The results of this study than were compared with those of different POTs setups conducted by other researchers. The new OSPOT results show in general an excellent agreement with the analytical predictions offered by both British and European standards, as well as the estimated shear resistance proposed other researchers in the literature. These findings suggest that the proposed one-sided setup could be used as an efficient and economical option for conducting the POT, as it has the potential not only to double the number of results, but also to simplify the fabrication of the samples, which is important in any large experimental campaign, and to allow testing with limited capacity of the actuator.

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Reliability analysis of shear connection in composite beams with profiled steel sheeting

World Journal of Engineering ◽

10.1260/1708-5284.8.1.29 ◽

2011 ◽

Vol 8 (1) ◽

pp. 29-34

Author(s):

M. Youcef ◽

M. Mimoune ◽

F. Mimoune

Keyword(s):

Reliability Analysis ◽

Failure Modes ◽

Composite Beams ◽

Steel Beam ◽

British Standard ◽

Shear Connectors ◽

Shear Connection ◽

Composite Slabs ◽

European Code ◽

Headed Stud

This paper describes the reliability analysis of shear connection in composite beams with profiled steel sheeting. The profiled steel sheeting had transverse ribs perpendicular to the steel beam. The level of safety of shear connection, and failure modes were determinate. An extensive parametric study was conducted to study the effects on the safety and behaviour of shear connection by changing the profiled steel sheeting geometries, the diameter and height of headed stud, as well as the strength of concrete. We compared the level safety calculated using the American specification, British standard and European code for headed stud shear connectors in composite slabs with profiled steel sheeting perpendicular to the steel beam. It is found that the design overestimated the level safety of shear connection.

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Modified strut and tie model of headed stud shear connectors in open trough profiled sheeting for predicting the post‐cracking load bearing resistance

ce/papers ◽

10.1002/cepa.1341 ◽

2021 ◽

Vol 4 (2-4) ◽

pp. 627-634

Author(s):

Valentino Vigneri ◽

Christoph Odenbreit ◽

Dennis Lam ◽

François Hanus

Keyword(s):

Load Bearing ◽

Shear Connectors ◽

Strut And Tie ◽

Headed Stud ◽

Strut And Tie Model

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Numerical evaluation of the plastic hinges developed in headed stud shear connectors in composite beams with profiled steel sheeting

Proceedings 12th international conference on Advances in Steel-Concrete Composite Structures - ASCCS 2018 ◽

10.4995/asccs2018.2018.7166 ◽

2018 ◽

Author(s):

Valentino Vigneri ◽

Christoph Odenbreit ◽

Matthias Braun

Keyword(s):

Bearing Capacity ◽

Numerical Evaluation ◽

Composite Beams ◽

Shear Capacity ◽

Embedment Depth ◽

Shear Connector ◽

Load Bearing Capacity ◽

Plastic Hinges ◽

Load Bearing ◽

Headed Stud

For composite beams using novel steel sheeting, the current Eurocode 4 rules sometimes overestimate the load bearing capacity of the shear connector. This is due to the larger rib heights and the smaller rib widths in comparison with the old studies, which have been carried out to calibrate the current design equations. The RFCS Project “DISCCO” investigated this phenomena and the working group under mandate M515, CEN/TC250/SC4/SC4.T3 is enhancing this equation and working on a proposal to be taken over in the new version of Eurocode 4.The proposed new equation covers the failure behaviour of the shear connection more in detail. The test results show, that the failure consists in a combined concrete cone and stud in bending. Due to the geometry of novel steel sheeting, the load bearing capacity of the headed stud shear connector is no more limited by its shear capacity, but by its bending capacity.A 3D non-linear finite element model is developed and validated through the support of the DISCCO push-out tests. A good agreement between numerical and experimental results in terms of force-slip behaviour is achieved. Special attention of this work lies on the numerical evaluation of the number of plastic hinges ny: a stress-based procedure is presented and the results are compared to the equations presented for new Eurocode 4.The numerical simulations show that the upper plastic hinge moves up as the slip increases due to the progressive crushing of the concrete in the rib. From the parametric study, it turns out that ny is linearly proportional to the embedment depth. Compared to pre-punched hole decking, through-deck welding specimen activates less plastic hinges in the studs because of the higher stiffness provided at the base of the stud.

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An Analysis of the Load-Bearing Capacity of Timber-Concrete Composite Beams with Profiled Sheeting

Civil and Environmental Engineering Reports ◽

10.1515/ceer-2017-0057 ◽

2017 ◽

Vol 27 (4) ◽

pp. 143-156 ◽

Cited By ~ 3

Author(s):

Maciej Szumigała ◽

Ewa Szumigała ◽

Łukasz Polus

Keyword(s):

Numerical Analysis ◽

Bearing Capacity ◽

Concrete Slab ◽

Composite Beams ◽

Concrete Slabs ◽

Timber Beam ◽

Load Bearing Capacity ◽

Load Bearing ◽

Shear Connectors ◽

Timber Beams

Abstract This paper presents an analysis of timber-concrete composite beams. Said composite beams consist of rectangular timber beams and concrete slabs poured into the steel sheeting. The concrete slab is connected with the timber beam using special shear connectors. The authors of this article are trying to patent these connectors. The article contains results from a numerical analysis. It is demonstrated that the type of steel sheeting used as a lost formwork has an influence on the load-bearing capacity and stiffness of the timber-concrete composite beams.

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Numerical Investigation on the Effect of Reinforcement Shear Connectors in Load Bearing Capacity of Partially Encased Composite Beams

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering - Advances of Science and Technology ◽

10.1007/978-3-030-93712-6_6 ◽

2022 ◽

pp. 82-98

Author(s):

Tamirat Semu ◽

Temesgen Wondimu ◽

Belay Worku

Keyword(s):

Bearing Capacity ◽

Numerical Investigation ◽

Composite Beams ◽

Load Bearing Capacity ◽

Load Bearing ◽

Shear Connectors

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Effect of Angle Shear Connectors on the Behavior of Composite Concrete Steel Flexural Members Under Negative Moment

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i4.20.25921 ◽

2018 ◽

Vol 7 (4.20) ◽

pp. 174

Author(s):

Alaa M. Al-Khekany ◽

Labeeb S. Al-Yassri ◽

Munaf A. Al-Ramahee ◽

Saeed Abdul-Abbas

Keyword(s):

Bending Moment ◽

Composite Beams ◽

Point Load ◽

Flexural Behavior ◽

Experimental Program ◽

Cross Sectional ◽

Shear Connectors ◽

Bond Interaction ◽

Composite Section ◽

Headed Stud

This research presents an experimental program to study the effect of using angle shear connectors instead of the headed stud on the flexural behavior of composite beams under negative bending moment (NBM). Both the angle and headed stud shear connectors used in this study have the same cross-sectional area. Five composite beams were casted and tested using three-point load configuration to ensure the NBM effect. Different parameters were included in this study such as the type of shear connector, bond interaction (partial and complete bond interaction) and arrangement of angle shear connectors. Two proposals method were suggested for angle setting in this study to investigate the structural behavior of the composite section. It has been found that, in the case of single angle shear connectors, the ultimate strength decreased by 4.12% compared with samples with the headed stud shear connectors. The direction of the angle setting has been shown to affect the flexural behavior of the composite section.

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Behaviour of perfobond rib shear connectors: push-out tests

Canadian Journal of Civil Engineering ◽

10.1139/l92-001 ◽

1992 ◽

Vol 19 (1) ◽

pp. 1-10 ◽

Cited By ~ 35

Author(s):

M. R. Veldanda ◽

M. U. Hosain

Keyword(s):

Concrete Slab ◽

Composite Beams ◽

Steel Beams ◽

Shear Connector ◽

Reinforcing Bars ◽

Longitudinal Splitting ◽

Shear Connectors ◽

Beam Shear ◽

Headed Stud ◽

Push Out

This paper summarizes the results of tests performed on 48 push-out specimens to investigate the feasibility of using perfobond rib type shear connectors in composite beams with ribbed metal decks placed parallel to the steel beams. The perfobond rib shear connector is a flat steel plate containing a number of holes. The results indicate that perfobond rib connectors can be effectively used in composite beams with ribbed metal decks placed parallel to the steel beams. An appreciable improvement in performance was observed in test specimens when additional reinforcing bars were passed through the perfobond rib holes. Shank shear was the principal mode of failure in specimens with headed studs. In specimens with perfobond rib, failure was triggered by the longitudinal splitting of the concrete slab, followed by the crushing of concrete in front of the perfobond rib. Key words: composite beam, shear connector, perfobond rib, headed stud, push-out test, metal deck.

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