Numerical study on restrained thermal elongation of cold-formed steel Column subjected to non-uniform thermal loading under transient state

Cold-formed steel (CFS) is extensively used as non-load bearing and load-bearing structural members because of its less weight to strength ratio, transportation economy, and handling ease. Since CFS members are treated as slender sections, they are highly susceptible to buckling under the compressio...

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Published inFire safety journal Vol. 131; p. 103608
Main Authors R, Senthilkumar, Sai Kumar, Chinchinada Praveen Akhil, R, Saravanakumar, Kumar, Dasari Prem
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier Ltd 01.07.2022
Elsevier BV
Subjects
Ambient temperature
Buckling
Cold
Cold working
Cold-formed steel
Compression
Compression loads
Elongation
fire safety
Flanges
High temperature
Load bearing elements
Mathematical models
Non-uniform thermal loading
Numerical study
Restrained column
Slenderness ratio
Steel
Steel columns
Stiffness
Structural members
Temperature
Temperature gradients
Thermal expansion
Thickness ratio
Transient state
Slenderness ratio
Transient state
Restrained column
Cold-formed steel
Non-uniform thermal loading
Numerical study
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Abstract Cold-formed steel (CFS) is extensively used as non-load bearing and load-bearing structural members because of its less weight to strength ratio, transportation economy, and handling ease. Since CFS members are treated as slender sections, they are highly susceptible to buckling under the compression loads at ambient and elevated temperatures. The codes IS801, EN1993–1.3, AS/NZS4600, and BS5950 are used to design the cold-formed steel compression members at ambient temperature, and the code EN1993–1.2 is used to design the CFS member by treating it as a slender member with a limiting temperature of 350 °C. Many researchers have attempted to study the behaviour of CFS members at elevated temperatures, both numerically and experimentally, under uniform thermal loading conditions at steady-state. However, studies on non-uniform thermal loading under transient states are minimal. The present study focuses on the numerical modelling of buckling behaviour of CFS members with restrained thermal elongation under non-uniform temperature conditions. The numerical modelling of the CFS column subjected to non-uniform temperature under a transient state is validated with the past results. The parametric study is carried out by varying the initial load, the member's slenderness ratio, the stiffness of the supporting structure, the width-thickness ratio(w/t), and the temperature difference between flanges.
AbstractList Cold-formed steel (CFS) is extensively used as non-load bearing and load-bearing structural members because of its less weight to strength ratio, transportation economy, and handling ease. Since CFS members are treated as slender sections, they are highly susceptible to buckling under the compression loads at ambient and elevated temperatures. The codes IS801, EN1993–1.3, AS/NZS4600, and BS5950 are used to design the cold-formed steel compression members at ambient temperature, and the code EN1993–1.2 is used to design the CFS member by treating it as a slender member with a limiting temperature of 350 °C. Many researchers have attempted to study the behaviour of CFS members at elevated temperatures, both numerically and experimentally, under uniform thermal loading conditions at steady-state. However, studies on non-uniform thermal loading under transient states are minimal. The present study focuses on the numerical modelling of buckling behaviour of CFS members with restrained thermal elongation under non-uniform temperature conditions. The numerical modelling of the CFS column subjected to non-uniform temperature under a transient state is validated with the past results. The parametric study is carried out by varying the initial load, the member's slenderness ratio, the stiffness of the supporting structure, the width-thickness ratio(w/t), and the temperature difference between flanges.
Cold-formed steel (CFS) is extensively used as non-load bearing and load-bearing structural members because of its less weight to strength ratio, transportation economy, and handling ease. Since CFS members are treated as slender sections, they are highly susceptible to buckling under the compression loads at ambient and elevated temperatures. The codes IS801, EN1993–1.3, AS/NZS4600, and BS5950 are used to design the cold-formed steel compression members at ambient temperature, and the code EN1993–1.2 is used to design the CFS member by treating it as a slender member with a limiting temperature of 350 °C. Many researchers have attempted to study the behaviour of CFS members at elevated temperatures, both numerically and experimentally, under uniform thermal loading conditions at steady-state. However, studies on non-uniform thermal loading under transient states are minimal. The present study focuses on the numerical modelling of buckling behaviour of CFS members with restrained thermal elongation under non-uniform temperature conditions. The numerical modelling of the CFS column subjected to non-uniform temperature under a transient state is validated with the past results. The parametric study is carried out by varying the initial load, the member's slenderness ratio, the stiffness of the supporting structure, the width-thickness ratio(w/t), and the temperature difference between flanges.
ArticleNumber 103608
Author R, Saravanakumar
Kumar, Dasari Prem
R, Senthilkumar
Sai Kumar, Chinchinada Praveen Akhil
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Keywords Slenderness ratio
Transient state
Restrained column
Cold-formed steel
Non-uniform thermal loading
Numerical study
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Snippet Cold-formed steel (CFS) is extensively used as non-load bearing and load-bearing structural members because of its less weight to strength ratio,...
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SubjectTerms Ambient temperature
Buckling
Cold
Cold working
Cold-formed steel
Compression
Compression loads
Elongation
fire safety
Flanges
High temperature
Load bearing elements
Mathematical models
Non-uniform thermal loading
Numerical study
Restrained column
Slenderness ratio
Steel
Steel columns
Stiffness
Structural members
Temperature
Temperature gradients
Thermal expansion
Thickness ratio
Transient state
Title Numerical study on restrained thermal elongation of cold-formed steel Column subjected to non-uniform thermal loading under transient state
URI https://dx.doi.org/10.1016/j.firesaf.2022.103608
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