Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model

Profiled decking or sheeting of high strength low-ductility steel (ASTM611 Grade E) is a relatively new development in building construction industry. Due to inadequate information, the major international codes of design practices are yet to include this steel, and apply additional restrictions on...

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Main Authors: Akhand A.M., Wan Badaruzzaman W.H., Wright H.D.
Other Authors: 7004303237
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Published: 2023
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spelling my.uniten.dspace-299142023-12-28T16:58:13Z Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model Akhand A.M. Wan Badaruzzaman W.H. Wright H.D. 7004303237 57205189014 7202463192 High strength low-ductility steel Nonlinear analysis Profiled decking Web crippling Bending strength Buckling Finite element method Mathematical models Nonlinear systems Rotation Structural analysis High strength low-ductility steel Nonlinear analysis Profiled decking Web crippling Steel Profiled decking or sheeting of high strength low-ductility steel (ASTM611 Grade E) is a relatively new development in building construction industry. Due to inadequate information, the major international codes of design practices are yet to include this steel, and apply additional restrictions on their design and use. This type of decking shows high sensitivity to distortional as well as local buckling. Strength of such decking under combined flexure and web crippling as well as moment-rotation capacity are of principal concern if such decking is to be designed as a continuous structure to achieve better economy. This paper describes an experimental study of the behaviour of re-entrant decking of low-ductility steel under combined web crippling and flexure. Based on this experimental study, a nonlinear finite element model has been proposed which can predict the moment-rotation characteristics of such decking with reasonable accuracy. � 2004 Published by Elsevier Ltd. Final 2023-12-28T08:58:13Z 2023-12-28T08:58:13Z 2004 Article 10.1016/j.tws.2004.03.023 2-s2.0-2942618770 https://www.scopus.com/inward/record.uri?eid=2-s2.0-2942618770&doi=10.1016%2fj.tws.2004.03.023&partnerID=40&md5=1ed5a0421d6f53ad916d5d0eed5d5f23 https://irepository.uniten.edu.my/handle/123456789/29914 42 7 1067 1082 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic High strength low-ductility steel
Nonlinear analysis
Profiled decking
Web crippling
Bending strength
Buckling
Finite element method
Mathematical models
Nonlinear systems
Rotation
Structural analysis
High strength low-ductility steel
Nonlinear analysis
Profiled decking
Web crippling
Steel
spellingShingle High strength low-ductility steel
Nonlinear analysis
Profiled decking
Web crippling
Bending strength
Buckling
Finite element method
Mathematical models
Nonlinear systems
Rotation
Structural analysis
High strength low-ductility steel
Nonlinear analysis
Profiled decking
Web crippling
Steel
Akhand A.M.
Wan Badaruzzaman W.H.
Wright H.D.
Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
description Profiled decking or sheeting of high strength low-ductility steel (ASTM611 Grade E) is a relatively new development in building construction industry. Due to inadequate information, the major international codes of design practices are yet to include this steel, and apply additional restrictions on their design and use. This type of decking shows high sensitivity to distortional as well as local buckling. Strength of such decking under combined flexure and web crippling as well as moment-rotation capacity are of principal concern if such decking is to be designed as a continuous structure to achieve better economy. This paper describes an experimental study of the behaviour of re-entrant decking of low-ductility steel under combined web crippling and flexure. Based on this experimental study, a nonlinear finite element model has been proposed which can predict the moment-rotation characteristics of such decking with reasonable accuracy. � 2004 Published by Elsevier Ltd.
author2 7004303237
author_facet 7004303237
Akhand A.M.
Wan Badaruzzaman W.H.
Wright H.D.
format Article
author Akhand A.M.
Wan Badaruzzaman W.H.
Wright H.D.
author_sort Akhand A.M.
title Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
title_short Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
title_full Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
title_fullStr Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
title_full_unstemmed Combined flexure and web crippling strength of a low-ductility high strength steel decking: Experiment and a finite element model
title_sort combined flexure and web crippling strength of a low-ductility high strength steel decking: experiment and a finite element model
publishDate 2023
_version_ 1806427353194168320
score 13.222552