Confinement-based direct design of circular steel tube confined concrete (STCC) short columns

A new design model to estimate the axial compressive resistance of circular steel tube confined concrete (STCC) short columns is proposed in this paper. These STCC columns differ from standard concrete-filled steel tubular (CFST) columns because their concrete core carries all the compressive stress...

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Published inJournal of constructional steel research Vol. 204; p. 107871
Main Authors Hassanein, M.F., Hamed, Asmaa Y., Shao, Yong-Bo, Silvestre, N.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2023
Subjects
Circular steel tube confined concrete (STCC)
Circular tube
Design resistance
EC4
Lateral confining stress
Short column
Lateral confining stress
Short column
Circular tube
Design resistance
Circular steel tube confined concrete (STCC)
EC4
Online AccessGet full text
ISSN0143-974X
1873-5983
DOI10.1016/j.jcsr.2023.107871

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Abstract A new design model to estimate the axial compressive resistance of circular steel tube confined concrete (STCC) short columns is proposed in this paper. These STCC columns differ from standard concrete-filled steel tubular (CFST) columns because their concrete core carries all the compressive stresses (the steel tube is not compressed). The design model considers the confinement effect of the outer steel tube on the concrete core. The experimental test results of axially-loaded STCC short columns with normal, high and ultra-high strength concrete were first collected from the literature. The test resistances of the columns were then compared to the predictions obtained by EC4 (2004), ANSI/AISC (2010), AIJ (2001), ACI 318R (2014) and CISC (2007), as well as analytical design models presented in the literature. This comparative study indicated that most design codes are conservative, while most analytical design models are unconservative. Additionally, they do not keep the same accuracy level over the whole slenderness range of circular steel tubes. Then, the test resistances were used to propose and calibrate a new formula to evaluate the lateral confining pressure (frp) provided by the steel tube to the concrete core of different grades. The frp formula is used to propose a confinement-based direct resistance for axially-loaded circular STCC short columns. The results of the proposed design model are much better than those obtained from the available design predictions, regardless of the slenderness ratio of the steel tube and steel/concrete grades, which can also be used with stainless STCC short columns. •A confinement-based direct design model is developed for steel tube confined concrete (STCC) short columns.•The experimental test results of axially-loaded STCC short columns were collected from the literature.•All design codes as well as other design models were found to be highly conservative.•All design codes do not have the same accuracy over the full range of steel tube slenderness.
AbstractList A new design model to estimate the axial compressive resistance of circular steel tube confined concrete (STCC) short columns is proposed in this paper. These STCC columns differ from standard concrete-filled steel tubular (CFST) columns because their concrete core carries all the compressive stresses (the steel tube is not compressed). The design model considers the confinement effect of the outer steel tube on the concrete core. The experimental test results of axially-loaded STCC short columns with normal, high and ultra-high strength concrete were first collected from the literature. The test resistances of the columns were then compared to the predictions obtained by EC4 (2004), ANSI/AISC (2010), AIJ (2001), ACI 318R (2014) and CISC (2007), as well as analytical design models presented in the literature. This comparative study indicated that most design codes are conservative, while most analytical design models are unconservative. Additionally, they do not keep the same accuracy level over the whole slenderness range of circular steel tubes. Then, the test resistances were used to propose and calibrate a new formula to evaluate the lateral confining pressure (frp) provided by the steel tube to the concrete core of different grades. The frp formula is used to propose a confinement-based direct resistance for axially-loaded circular STCC short columns. The results of the proposed design model are much better than those obtained from the available design predictions, regardless of the slenderness ratio of the steel tube and steel/concrete grades, which can also be used with stainless STCC short columns. •A confinement-based direct design model is developed for steel tube confined concrete (STCC) short columns.•The experimental test results of axially-loaded STCC short columns were collected from the literature.•All design codes as well as other design models were found to be highly conservative.•All design codes do not have the same accuracy over the full range of steel tube slenderness.
ArticleNumber 107871
Author Hassanein, M.F.
Shao, Yong-Bo
Hamed, Asmaa Y.
Silvestre, N.
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Keywords Lateral confining stress
Short column
Circular tube
Design resistance
Circular steel tube confined concrete (STCC)
EC4
Language English
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Snippet A new design model to estimate the axial compressive resistance of circular steel tube confined concrete (STCC) short columns is proposed in this paper. These...
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StartPage 107871
SubjectTerms Circular steel tube confined concrete (STCC)
Circular tube
Design resistance
EC4
Lateral confining stress
Short column
Title Confinement-based direct design of circular steel tube confined concrete (STCC) short columns
URI https://dx.doi.org/10.1016/j.jcsr.2023.107871
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