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International Journal of Steel Structures

Erschienen in:

01.02.2023

Effect of Rotational Restraint on Inelastic Buckling of Steel Column at Elevated Temperatures

verfasst von: Jahun Koo, Cheol-Ho Lee, Dongjin Shin

Erschienen in: International Journal of Steel Structures | Ausgabe 2/2023

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Abstract

When a fire develops within the fire compartment of a building, the columns in the compartment are heated, whereas the beams and columns outside the compartment remain cold. Hence, the relative stiffness ratio between the cold members and heated column increases. Consequently, the end-rotational restraint on the heated column is increased, and the effective buckling length of the heated column becomes shorter compared with the ambient temperature condition. However, studies regarding the effect of increased end rotational restraint on heated columns are rare. Although some recommendations to consider this effect are available in representative design standards, they are suggested under limited or ideal conditions and hence not applicable under general conditions. In this study, a procedure for calculating the effective length factor of non-sway steel columns with general end restraints at elevated temperatures is proposed based on the classical Euler column theory and tangent modulus concept. The proposed procedure is validated based on a test-backed nonlinear finite element analysis. It is shown that the proposed equations can be combined with the existing column buckling curve to predict the column buckling strength with significantly increased accuracy compared with the methods suggested by representative design standards.

Vorheriger Artikel Probabilistic Tensile Strength Model of Q345 Steel Plates with Random Pitting Corrosion for Fragility Analysis

Nächster Artikel Analysis of Pressure Distribution of the Bolted Joints Based on the Finite Element Method

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Agarwal, A., & Varma, A. H. (2011). Design of steel columns at elevated temperatures due to fire: Effects of rotational restraints. Engineering Journal, 48, 297–314.

Ali, F., & O’Connor, D. (2001). Structural performance of rotationally restrained steel columns in fire. Fire Safety Journal, 36, 679–691.CrossRef

American institute of steel construction (AISC). (2016). Specification for structural steel buildings (AISC 360–16). Chicago: AISC.

DSS. (2012) Abaqus analysis user’s manual volume IV: Elements. USA: DSS.

European committee for standardization (CEN). (2005). Eurocode 3: design of steel structures, part 1–2: General rule—structural fire design (EN 1993-1-2). ECS.

Franssen, J. M., Schleich, J., & Cajot, L. (1995). A simple model for the fire resistance of axially loaded members according to Eurocode 3. Journal of Constructional Steel Research, 35, 49–69.CrossRef

Franssen, J. M., Talamona, D., Kruppa, J., & Cajot, L. G. (1998). Stability of steel columns in case of fire: Experimental evaluation. Journal of Structural Engineering, 124, 158–163.CrossRef

Morovat, M. A. Creep buckling behavior of steel columns subjected to fire (Doctoral dissertation). 2014.

Morovat, M. A., Engelhardt, M. D., Helwig, T. A., & Taleff, E. M. (2016). Experimental examination of creep buckling of steel columns in fire. Structural Stability Research Council (pp. 248–261).

Takagi, J., & Deierlein, G. G. (2007). Strength design criteria for steel members at elevated temperatures. Journal of Constructional Steel Research, 63, 1036–50.CrossRef

Talamona, D., Franssen, J. M., Schleich, J. B., & Kruppa, J. (1997). Stability of steel columns in case of fire: Numerical modeling. Journal of Structural Engineering, 123, 713–720.CrossRef

Valente, J. C., & Neves, I. C. (1999). Fire resistance of steel columns with elastically restrained axial elongation and bending. Journal of Constructional Steel Research, 52, 319–331.CrossRef

Varma, A. H., Agarwal, A., Hong, S. D., & Prasad, K. (2008). Behavior of steel building structures with perimeter MRFs under fire loading effects. In Proceedings of the fifth international conference on structures in fire. Nanyang Technological University (pp. 266-277).

Wang, Y. C., & Davies, J. M. (2003a). An experimental study of non-sway loaded and rotationally restrained steel columns assemblies under fire conditions: Analysis of test result and design calculations. Journal of Constructional Steel Research, 59, 291–313.CrossRef

Wang, Y. C., & Davies, J. M. (2003b). Fire tests of non-sway loaded and rotationally restrained steel column assemblies. Journal of Constructional Steel Research, 59, 359–383.CrossRef

Yura, J. A. (1971). The effective length of column in unbraced frame. Engineering Journal, 8, 37–42.

Titel: Effect of Rotational Restraint on Inelastic Buckling of Steel Column at Elevated Temperatures
verfasst von: Jahun Koo
Cheol-Ho Lee
Dongjin Shin
Publikationsdatum: 01.02.2023
Verlag: Korean Society of Steel Construction
Erschienen in: International Journal of Steel Structures / Ausgabe 2/2023
Print ISSN: 1598-2351
Elektronische ISSN: 2093-6311
DOI: https://doi.org/10.1007/s13296-023-00713-7

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