Static behavior of stud shear connectors in elastic concrete–steel composite beams

Abstract Steel-concrete composite structures are widely used in the current construction of bridges and multi-storey buildings. The effect of shear connectors in a cold-formed steel-composite beam was studied under flexure. The number of channel connectors in the specimen was varied and the same was compared with a specimen without shear connectors. The performance and failure of cold-formed steel-composite beams were then studied. The presence of shear connectors in the tension zone prevents the formation of cracks which are the major cause of failure in a beam subjected to bending. The load-carrying capacity is greater in a composite beam and an increase in the number of channel connectors from one to five increases the load-carrying capacity by 60 % as compared to a specimen without a connector. A composite beam with five connectors is more ductile, with a ductility factor of 14. The Composite beams were also analysed using the finite element software ANSYS and were found to have good agreement with the experimental results.

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FIRE RESISTACE OF SHEAR CONNECTORS FOR COMPOSITE BEAMS

Building and reconstruction ◽

10.33979/2073-7416-2020-92-6-59-65 ◽

2020 ◽

Vol 92 (6) ◽

pp. 59-65

Author(s):

G.P. TONKIH ◽

◽

D.A. CHESNOKOV ◽

◽

Keyword(s):

Fire Resistance ◽

Composite Structure ◽

Composite Structures ◽

Composite Beams ◽

Design Codes ◽

Connection Strength ◽

Shear Connectors ◽

Shear Connection ◽

Capacity Reduction ◽

Russian Research

Most of Russian research about composite structure fire resistance are dedicated to the composite slab behavior. The composite beams fire resistance had been never investigated in enough volume: the temperature evaluation within the scope of the actual Russian design codes leads to the significant reduction in the shear connection strength. Meanwhile, there no correlation between the strength decreasing and type of the shear connection. The article provides an overview of the relevant researches and offers some approaches which could take into account bearing capacity reduction of the shear connectors within composite structures design.

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Experimental investigation on composite beams under combined negative bending and torsional moments

Advances in Structural Engineering ◽

10.1177/1369433220981660 ◽

2020 ◽

pp. 136943322098166

Author(s):

Weiwei Lin

Keyword(s):

Ultimate Load ◽

Mechanical Performance ◽

Composite Beams ◽

Strain Development ◽

Shear Connectors ◽

Load Carrying ◽

Interface Slip ◽

Negative Bending ◽

Support Conditions ◽

Main Girder

In this study, straight composite steel-concrete beams were tested to investigate their mechanical performance under combined negative bending and torsional moments. Two specimens were used in this study, and different ratios between the applied negative bending and torsional moments were induced. Load and deflection relationships, strain development on the steel main girder and shear connectors (stud), and the slip development on the steel-concrete interface were recorded in the test and reported in this paper. The results indicate that increase of torsional moment will result in the significant decrease of the load-carrying capacities (e.g. yield load and ultimate load) of the specimens. It was also found that the normal strains of stud shear connectors in such beams are very large and non-negligible compared to their shear strains. In addition, the maximum interface slip was found occurring at around the 1/4 span, and the support conditions and serious crack of the concrete were considered to be the main causes. The research results obtained in this study can provide references for the design and analysis of steel-concrete composite beams subjected to the combined negative bending and torsional moments.

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Static behavior of large stud shear connectors in steel-UHPC composite structures

Engineering Structures ◽

10.1016/j.engstruct.2018.07.058 ◽

2019 ◽

Vol 178 ◽

pp. 534-542 ◽

Cited By ~ 26

Author(s):

Jingquan Wang ◽

Jianan Qi ◽

Teng Tong ◽

Qizhi Xu ◽

Hongliang Xiu

Keyword(s):

Composite Structures ◽

Static Behavior ◽

Shear Connectors

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A novel one-sided push-out test for shear connectors in composite beams

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

10.4995/asccs2018.2018.7063 ◽

2018 ◽

Author(s):

Mohammed Abdulhussein Al-Shuwaili ◽

Alessandro Palmeri ◽

Maria Teresa Lombardo

Keyword(s):

Shear Resistance ◽

Composite Beams ◽

Full Scale ◽

Bending Tests ◽

Shear Connectors ◽

Shear Connections ◽

European Standards ◽

Headed Stud ◽

The Relationship ◽

Push Out

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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Modified approach to design of shear connectors in composite beams for fatigue loading

International Journal of Fatigue ◽

10.1016/0142-1123(92)90269-i ◽

1992 ◽

Vol 14 (6) ◽

pp. 415

Keyword(s):

Fatigue Loading ◽

Composite Beams ◽

Shear Connectors

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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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The Fatigue Behavior of Negative Moment Regions of Continuous Composite Beams at Low Temperatures

Canadian Journal of Civil Engineering ◽

10.1139/l75-009 ◽

1975 ◽

Vol 2 (1) ◽

pp. 98-115

Author(s):

A. E. Long ◽

K. Van Dalen ◽

P. Csagoly

Keyword(s):

Fatigue Behavior ◽

Bending Moment ◽

Composite Beams ◽

Horizontal Shear ◽

Shear Connectors ◽

Significant Difference ◽

Show Evidence ◽

Negative Moment ◽

Central Support ◽

Push Out

The fatigue behavior of the negative moment region of continuous steel–concrete composite beams under Canadian temperature conditions was studied. Tests were conducted on three 26 ft 0 in. (7.92 m) long beams, continuous over a central support, and on 11 conventional push-out specimens. These were supplemented by a theoretical study of the internal forces in the beams using an iterative method of analysis.The close agreement between measured and theoretical strains and deflections indicated that good interaction was achieved throughout the length of the beams. The beams sustained 500 000 cycles of loading with no serious deterioration of composite action. The pattern of stud failures was consistent from beam to beam and reflected closely the calculated distribution of horizontal shear force at the steel–concrete interface. Stud shear connectors in the negative moment region where the slab had cracked in tension were found to be slightly less effective than studs in the positive bending moment regions.Neither the detailed study of individual connectors in the beams nor the results of the push-out tests show evidence of a reduction in the fatigue life of studs at −20 °F (−29 °C) relative to room temperature. The beams also exhibited no significant difference in their overall performance at these two temperatures.

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