Behaviour of different types of steel connections in steel frames against progressive collapse

Firstly, this paper presents an overview of DoD code [1] against progressive collapse and points out the shortcomings of the current design approaches. After that, seven experimental tests of common types of bolted steel beam-column joints under a middle-column removal scenario are presented. This s...

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Main Authors: Tan, Kang Hai, Yang, Bo
Other Authors: School of Civil and Environmental Engineering
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/97484
http://hdl.handle.net/10220/10720
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-974842020-03-07T11:43:44Z Behaviour of different types of steel connections in steel frames against progressive collapse Tan, Kang Hai Yang, Bo School of Civil and Environmental Engineering Firstly, this paper presents an overview of DoD code [1] against progressive collapse and points out the shortcomings of the current design approaches. After that, seven experimental tests of common types of bolted steel beam-column joints under a middle-column removal scenario are presented. This study provides the behaviour and failure modes of different types of connections, including their resistances and rotational capacities in catenary action. The test results indicate that the web cleat connection has the best performance in the development of catenary action. The flush end plate, fin plate and top and seat with web angle (TSWA) connections could also deform in a ductile manner and develop catenary action prior to failure. Numerical simulations have also been conducted. Both static and explicit dynamic solvers were employed to overcome problems of non-convergence, contact, large deformation and fracture simulations. It is demonstrated that the finite element analyses give reasonable accuracy compared to the test results. In addition, an extensive parametric study was undertaken using these validated models to obtain the rotation capacities of various types of connections under catenary action. Finally, some practical design implications have been drawn up from the experimental tests and the parametric study. A new tying resistance expression is proposed to consider the effect of large rotation. If large rotation capacity is not considered in the design stage, the joints with poor rotation capacities would fail to achieve the design tying resistances. In addition, four new connection acceptance criteria of rotation capacities have been proposed to incorporate catenary action under a middle column removal scenario. The work shows that current acceptance criteria of rotation capacities for steel joints such as web cleat, fin plate, flush end plate and TSWA connections, are probably too conservative as they only consider pure flexural resistance. 2013-06-26T07:05:57Z 2019-12-06T19:43:12Z 2013-06-26T07:05:57Z 2019-12-06T19:43:12Z 2012 2012 Journal Article Tan, K. H., & Yang, B. (2012). Behaviour of Different Types of Steel Connections in Steel Frames against Progressive Collapse. Advanced Materials Research, 374-377, 1330-1341. 1662-8985 https://hdl.handle.net/10356/97484 http://hdl.handle.net/10220/10720 10.4028/www.scientific.net/AMR.374-377.1330 en Advanced materials research © 2012 Trans Tech Publications, Switzerland.
institution Nanyang Technological University
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language English
description Firstly, this paper presents an overview of DoD code [1] against progressive collapse and points out the shortcomings of the current design approaches. After that, seven experimental tests of common types of bolted steel beam-column joints under a middle-column removal scenario are presented. This study provides the behaviour and failure modes of different types of connections, including their resistances and rotational capacities in catenary action. The test results indicate that the web cleat connection has the best performance in the development of catenary action. The flush end plate, fin plate and top and seat with web angle (TSWA) connections could also deform in a ductile manner and develop catenary action prior to failure. Numerical simulations have also been conducted. Both static and explicit dynamic solvers were employed to overcome problems of non-convergence, contact, large deformation and fracture simulations. It is demonstrated that the finite element analyses give reasonable accuracy compared to the test results. In addition, an extensive parametric study was undertaken using these validated models to obtain the rotation capacities of various types of connections under catenary action. Finally, some practical design implications have been drawn up from the experimental tests and the parametric study. A new tying resistance expression is proposed to consider the effect of large rotation. If large rotation capacity is not considered in the design stage, the joints with poor rotation capacities would fail to achieve the design tying resistances. In addition, four new connection acceptance criteria of rotation capacities have been proposed to incorporate catenary action under a middle column removal scenario. The work shows that current acceptance criteria of rotation capacities for steel joints such as web cleat, fin plate, flush end plate and TSWA connections, are probably too conservative as they only consider pure flexural resistance.
author2 School of Civil and Environmental Engineering
author_facet School of Civil and Environmental Engineering
Tan, Kang Hai
Yang, Bo
format Article
author Tan, Kang Hai
Yang, Bo
spellingShingle Tan, Kang Hai
Yang, Bo
Behaviour of different types of steel connections in steel frames against progressive collapse
author_sort Tan, Kang Hai
title Behaviour of different types of steel connections in steel frames against progressive collapse
title_short Behaviour of different types of steel connections in steel frames against progressive collapse
title_full Behaviour of different types of steel connections in steel frames against progressive collapse
title_fullStr Behaviour of different types of steel connections in steel frames against progressive collapse
title_full_unstemmed Behaviour of different types of steel connections in steel frames against progressive collapse
title_sort behaviour of different types of steel connections in steel frames against progressive collapse
publishDate 2013
url https://hdl.handle.net/10356/97484
http://hdl.handle.net/10220/10720
_version_ 1681036031048024064