Push-off tests on pin-connected shear studs with composite steel-concrete beams
A new stud system fastened with high strength pins was investigated experimentally in this paper. This system is reported to be the fastest and the most economical method for installing studs to steel roof and floor decking in composite construction. It is 5-10 times faster than welding, screwing, o...
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my.utm.130752017-10-25T06:45:34Z http://eprints.utm.my/id/eprint/13075/ Push-off tests on pin-connected shear studs with composite steel-concrete beams Md. Tahir, Mahmood Shek, Poi Ngian Tan, Cher Siang TA Engineering (General). Civil engineering (General) A new stud system fastened with high strength pins was investigated experimentally in this paper. This system is reported to be the fastest and the most economical method for installing studs to steel roof and floor decking in composite construction. It is 5-10 times faster than welding, screwing, or using powder actuated tools, which will directly reduce the fastening cost. These advantages would make significant contribution to the popularity of composite construction. The shear capacity of headed studs in composite steel-concrete beams has been determined experimentally in seven full-scale push-off tests. The tests were used to study the strength and ductility of the proposed stud system. Maximum resistances from the experimental tests are compared with the predictions of EC 4 and results from other researchers. The capacity of the stud is reduced due to fracture of the pins that occur before the shear stud had yielded. The proposed stud system can be improved further by increasing the size and the strength of the pins and base plate. Elsevier BV 2009-09 Article PeerReviewed Md. Tahir, Mahmood and Shek, Poi Ngian and Tan, Cher Siang (2009) Push-off tests on pin-connected shear studs with composite steel-concrete beams. Construction and Building Materials, 23 (9). 3024 -3033. ISSN 0950-0618 http://dx.doi.org/10.1016/j.conbuildmat.2009.04.008 doi:10.1016/j.conbuildmat.2009.04.008 |
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TA Engineering (General). Civil engineering (General) Md. Tahir, Mahmood Shek, Poi Ngian Tan, Cher Siang Push-off tests on pin-connected shear studs with composite steel-concrete beams |
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A new stud system fastened with high strength pins was investigated experimentally in this paper. This system is reported to be the fastest and the most economical method for installing studs to steel roof and floor decking in composite construction. It is 5-10 times faster than welding, screwing, or using powder actuated tools, which will directly reduce the fastening cost. These advantages would make significant contribution to the popularity of composite construction. The shear capacity of headed studs in composite steel-concrete beams has been determined experimentally in seven full-scale push-off tests. The tests were used to study the strength and ductility of the proposed stud system. Maximum resistances from the experimental tests are compared with the predictions of EC 4 and results from other researchers. The capacity of the stud is reduced due to fracture of the pins that occur before the shear stud had yielded. The proposed stud system can be improved further by increasing the size and the strength of the pins and base plate. |
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Article |
author |
Md. Tahir, Mahmood Shek, Poi Ngian Tan, Cher Siang |
author_facet |
Md. Tahir, Mahmood Shek, Poi Ngian Tan, Cher Siang |
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Md. Tahir, Mahmood |
title |
Push-off tests on pin-connected shear studs with composite steel-concrete beams |
title_short |
Push-off tests on pin-connected shear studs with composite steel-concrete beams |
title_full |
Push-off tests on pin-connected shear studs with composite steel-concrete beams |
title_fullStr |
Push-off tests on pin-connected shear studs with composite steel-concrete beams |
title_full_unstemmed |
Push-off tests on pin-connected shear studs with composite steel-concrete beams |
title_sort |
push-off tests on pin-connected shear studs with composite steel-concrete beams |
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Elsevier BV |
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2009 |
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http://eprints.utm.my/id/eprint/13075/ http://dx.doi.org/10.1016/j.conbuildmat.2009.04.008 |
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