Web crippling design of modular construction optimised beams under ETF loading

In recent times, modular construction is considered as one of the most effective construction methods. It is necessary to understand the structural behaviour of modular construction elements for possible improvements. Modular Construction Optimised (MCO) beam is one of the innovative profiles and ca...

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Published inJournal of Building Engineering Vol. 43; p. 103072
Main Authors Thirunavukkarasu, Kajaharan, Kanthasamy, Elilarasi, Gatheeshgar, Perampalam, Poologanathan, Keerthan, Das, Sreekanta, Todhunter, Shaun, Suntharalingam, Thadshajini
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2021
Subjects
Cold-formed steel
End-two-flange load case
MCO beam
New design equations
Numerical models
Web crippling
End-two-flange load case
Web crippling
Cold-formed steel
Numerical models
MCO beam
New design equations
Online AccessGet full text
ISSN2352-7102
2352-7102
DOI10.1016/j.jobe.2021.103072

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Abstract In recent times, modular construction is considered as one of the most effective construction methods. It is necessary to understand the structural behaviour of modular construction elements for possible improvements. Modular Construction Optimised (MCO) beam is one of the innovative profiles and can be categorised into hollow flange Cold-Formed Steel (CFS) sections. The hollow flanges encourage bending stiffness and flexural performance, in contrast, slender web causes web crippling failure as these members are often subjected to concentrated loads and reactions. Even though research studies regarding MCO beams are very limited, the structural performance of other types of hollow flange beams has been covered in previous studies. However, to date, web crippling behaviour of MCO beams is still unknown and should be investigated to enhance the commercial aspects of MCO beams as this is an innovative section in the modular construction area. To address this research gap, this paper investigates the web crippling capacity of MCO beams under End-Two-Flange (ETF) load case with flanges unfastened to support condition using numerical analysis. Numerical models were developed and validated against the web crippling test results of hollow flange beams available in the literature. Subsequently, parametric numerical analysis (162 models) was conducted for MCO beams with varying key controlling parameters on web crippling capacity. The web crippling capacities of MCO beams were compared with existing codified (AISI S100, AS/NZ 4600) predictive equations and new design equations were developed to accurately predict the web crippling capacity of MCO beam under ETF load case with flanges unfastened condition. •Investigated web crippling behaviour of Modular Construction Optimised (MCO) beams under ETF load case.•The effect of section depth, web thickness, yield strength, bearing length, effective depth of the beam was identified.•Corner radius effect on web crippling behaviour of Modular Construction Optimised beams was investigated.•Web crippling design equations for Modular Construction Optimised beams under ETF load case are not available in standards.•Web crippling design equations for Modular Construction Optimised beams under ETF load case was proposed.
AbstractList In recent times, modular construction is considered as one of the most effective construction methods. It is necessary to understand the structural behaviour of modular construction elements for possible improvements. Modular Construction Optimised (MCO) beam is one of the innovative profiles and can be categorised into hollow flange Cold-Formed Steel (CFS) sections. The hollow flanges encourage bending stiffness and flexural performance, in contrast, slender web causes web crippling failure as these members are often subjected to concentrated loads and reactions. Even though research studies regarding MCO beams are very limited, the structural performance of other types of hollow flange beams has been covered in previous studies. However, to date, web crippling behaviour of MCO beams is still unknown and should be investigated to enhance the commercial aspects of MCO beams as this is an innovative section in the modular construction area. To address this research gap, this paper investigates the web crippling capacity of MCO beams under End-Two-Flange (ETF) load case with flanges unfastened to support condition using numerical analysis. Numerical models were developed and validated against the web crippling test results of hollow flange beams available in the literature. Subsequently, parametric numerical analysis (162 models) was conducted for MCO beams with varying key controlling parameters on web crippling capacity. The web crippling capacities of MCO beams were compared with existing codified (AISI S100, AS/NZ 4600) predictive equations and new design equations were developed to accurately predict the web crippling capacity of MCO beam under ETF load case with flanges unfastened condition. •Investigated web crippling behaviour of Modular Construction Optimised (MCO) beams under ETF load case.•The effect of section depth, web thickness, yield strength, bearing length, effective depth of the beam was identified.•Corner radius effect on web crippling behaviour of Modular Construction Optimised beams was investigated.•Web crippling design equations for Modular Construction Optimised beams under ETF load case are not available in standards.•Web crippling design equations for Modular Construction Optimised beams under ETF load case was proposed.
ArticleNumber 103072
Author Kanthasamy, Elilarasi
Das, Sreekanta
Thirunavukkarasu, Kajaharan
Todhunter, Shaun
Poologanathan, Keerthan
Suntharalingam, Thadshajini
Gatheeshgar, Perampalam
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  fullname: Gatheeshgar, Perampalam
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  givenname: Keerthan
  surname: Poologanathan
  fullname: Poologanathan, Keerthan
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  organization: The Home Engineers (NE) Ltd, Newcastle upon Tyne, UK
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  givenname: Thadshajini
  surname: Suntharalingam
  fullname: Suntharalingam, Thadshajini
  organization: Faculty of Engineering and Environment, Northumbria University, Newcastle upon Tyne, UK
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Keywords End-two-flange load case
Web crippling
Cold-formed steel
Numerical models
MCO beam
New design equations
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Snippet In recent times, modular construction is considered as one of the most effective construction methods. It is necessary to understand the structural behaviour...
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SourceType Enrichment Source
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Publisher
StartPage 103072
SubjectTerms Cold-formed steel
End-two-flange load case
MCO beam
New design equations
Numerical models
Web crippling
Title Web crippling design of modular construction optimised beams under ETF loading
URI https://dx.doi.org/10.1016/j.jobe.2021.103072
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