Semi-analytical buckling analysis of reinforced concrete columns exposed to fire

A new semi-analytical procedure is derived for the determination of buckling of the reinforced concrete column exposed to fire. The fire analysis is performed in three separate steps, of which the time development of temperatures in the fire compartment is performed first, followed by the coupled he...

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Bibliographic Details
Published in:Fire safety journal 2015-01, Vol.71, p.110-122
Main Authors: Bajc, U., Saje, M., Planinc, I., Bratina, S.
Format: Article
Language:English
Subjects:
Buckling
Compartments
Exposure
Fire
Fires
Joining
Mechanical analysis
Moisture
Reinforced concrete
Reinforced concrete column
Reissner beam
Safety
Semi-analytical solution
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Summary:A new semi-analytical procedure is derived for the determination of buckling of the reinforced concrete column exposed to fire. The fire analysis is performed in three separate steps, of which the time development of temperatures in the fire compartment is performed first, followed by the coupled heat and moisture transfer analysis and, finally, by the mechanical analysis. A particular emphasis has been given to the critical buckling time and the remaining critical buckling load at a selected time. For this purpose, a parametric study has been performed by which the influence of different geometric parameters on the buckling load capacity of reinforced concrete columns has been assessed. The results of this study show that the load-carrying capacity of the column reduces significantly with the increasing time of fire exposure and the column slenderness. Moreover, the initial mechanical load has a small, although not negligible effect on the buckling load capacity. •The semi-analytical model for analysis of RC column in fire is presented.•The critical buckling time and the load-carrying capacity are determined.•A good agreement between numerical and experimental results is found out.•The initial mechanical load has a small effect on the buckling load capacity.
ISSN:0379-7112
DOI:10.1016/j.firesaf.2014.11.018