A review of progressive collapse research and regulations
A review of progressive collapse research and regulations
History has demonstrated that buildings designed to conventional design codes can lack the robustness necessary to withstand localised damage, partial or even complete collapse. This variable performance has led governmental organisations to seek ways of ensuring all buildings of significant size possess a minimum level of robustness. The research community has responded by advancing understanding of how structures behave when subjected to localised damage. Regulations and design recommendations have been developed to help ensure more consistent resilience in all framed buildings of significant size, and rigorous design approaches have been specified for buildings deemed potentially vulnerable to extreme loading events. This paper summarises some of the more important progressive collapse events, to identify key attributes that lead to vulnerability to collapse. Current procedures and guidelines for ensuring a minimum level of performance are reviewed and modelling methods for structures subjected to localised damage are described. These include increasingly sophisticated progressive collapse analysis procedures, including linear static and non-linear static analysis, as well as non-linear static pushover and linear dynamic methods. Finally, fully non-linear dynamic methods are considered. Building connections potentially represent the most vulnerable structural elements in steel-framed buildings; their failure can lead to progressive collapses. Steel connections also present difficulties with respect to frame modelling and this paper highlights benefits and drawbacks of some modelling procedures with respect to their treatment of connections.
buildings, structures & design, codes of practice & standards
447-456
Byfield, M.P.
35515781-c39d-4fe0-86c8-608c87287964
Mudalige, Wjesundara
6ff30624-d365-4174-bfac-6ba0e72d034d
Morison, C.
fade10e2-f08b-43ce-9837-844667d1f8b3
Stoddart, E.
61de821c-f02c-402c-87c6-b15c36bf7f25
January 2014
Byfield, M.P.
35515781-c39d-4fe0-86c8-608c87287964
Mudalige, Wjesundara
6ff30624-d365-4174-bfac-6ba0e72d034d
Morison, C.
fade10e2-f08b-43ce-9837-844667d1f8b3
Stoddart, E.
61de821c-f02c-402c-87c6-b15c36bf7f25
Byfield, M.P., Mudalige, Wjesundara, Morison, C. and Stoddart, E.
(2014)
A review of progressive collapse research and regulations.
Proceedings of the Institution of Civil Engineers - Structures and Buildings, 167 (8), .
(doi:10.1680/stbu.12.00023).
Abstract
History has demonstrated that buildings designed to conventional design codes can lack the robustness necessary to withstand localised damage, partial or even complete collapse. This variable performance has led governmental organisations to seek ways of ensuring all buildings of significant size possess a minimum level of robustness. The research community has responded by advancing understanding of how structures behave when subjected to localised damage. Regulations and design recommendations have been developed to help ensure more consistent resilience in all framed buildings of significant size, and rigorous design approaches have been specified for buildings deemed potentially vulnerable to extreme loading events. This paper summarises some of the more important progressive collapse events, to identify key attributes that lead to vulnerability to collapse. Current procedures and guidelines for ensuring a minimum level of performance are reviewed and modelling methods for structures subjected to localised damage are described. These include increasingly sophisticated progressive collapse analysis procedures, including linear static and non-linear static analysis, as well as non-linear static pushover and linear dynamic methods. Finally, fully non-linear dynamic methods are considered. Building connections potentially represent the most vulnerable structural elements in steel-framed buildings; their failure can lead to progressive collapses. Steel connections also present difficulties with respect to frame modelling and this paper highlights benefits and drawbacks of some modelling procedures with respect to their treatment of connections.
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Manuscript.pdf
- Accepted Manuscript
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ICE SB Prog Collapse.pdf
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e-pub ahead of print date: 1 January 2014
Published date: January 2014
Keywords:
buildings, structures & design, codes of practice & standards
Organisations:
Civil Maritime & Env. Eng & Sci Unit
Identifiers
Local EPrints ID: 372116
URI: http://eprints.soton.ac.uk/id/eprint/372116
PURE UUID: 642b90c9-d676-489e-a6f0-1615a97b3a8b
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Date deposited: 25 Nov 2014 12:32
Last modified: 14 Mar 2024 18:31
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Contributors
Author:
M.P. Byfield
Author:
Wjesundara Mudalige
Author:
C. Morison
Author:
E. Stoddart
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