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Catenary action in steel-framed buildings

Catenary action in steel-framed buildings
Catenary action in steel-framed buildings
The current paper is of relevance to engineers engaged in the design of buildings in which severe column damage resulting from malicious actions is a design scenario. The tying force method as used for providing robustness to steel-framed buildings relies upon catenary action to redistribute loads following column damage. Fortunately severe column damage is extremely rare and for this reason it is not well understood if this load redistribution mechanism is reliable. The current paper presents results of an investigation into the tying force method by way of a case study of a steel-framed building in which support to a perimeter column is removed. Results indicate that industry standard beam-column connections possess insufficient ductility to accommodate the large floor displacements that occur during catenary action and the factor of safety against collapse is shown to be less than 0.2.
steel structures, building structures and design, design methods and aids
0965-0911
247-257
Byfield, Michael P.
35515781-c39d-4fe0-86c8-608c87287964
Paramasivam, Sakthivel
2bf36811-4cb4-408c-805a-8ccb34016c52
Byfield, Michael P.
35515781-c39d-4fe0-86c8-608c87287964
Paramasivam, Sakthivel
2bf36811-4cb4-408c-805a-8ccb34016c52

Byfield, Michael P. and Paramasivam, Sakthivel (2007) Catenary action in steel-framed buildings. Proceedings of the Institution of Civil Engineers - Structures and Buildings, 160 (5), 247-257. (doi:10.1680/stbu.2007.160.5.247).

Record type: Article

Abstract

The current paper is of relevance to engineers engaged in the design of buildings in which severe column damage resulting from malicious actions is a design scenario. The tying force method as used for providing robustness to steel-framed buildings relies upon catenary action to redistribute loads following column damage. Fortunately severe column damage is extremely rare and for this reason it is not well understood if this load redistribution mechanism is reliable. The current paper presents results of an investigation into the tying force method by way of a case study of a steel-framed building in which support to a perimeter column is removed. Results indicate that industry standard beam-column connections possess insufficient ductility to accommodate the large floor displacements that occur during catenary action and the factor of safety against collapse is shown to be less than 0.2.

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More information

Submitted date: October 2006
Published date: October 2007
Keywords: steel structures, building structures and design, design methods and aids

Identifiers

Local EPrints ID: 48871
URI: http://eprints.soton.ac.uk/id/eprint/48871
DOI: doi:10.1680/stbu.2007.160.5.247
ISSN: 0965-0911
PURE UUID: b31e8fcd-142d-4ebe-aa00-e80af5ce597e
ORCID for Michael P. Byfield: ORCID iD orcid.org/0000-0002-9724-9472

Catalogue record

Date deposited: 18 Oct 2007
Last modified: 15 Mar 2024 09:51

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Contributors

Author: Michael P. Byfield ORCID iD
Author: Sakthivel Paramasivam

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