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Fire behavior of axially loaded slender high strength concrete-filled tubular columns
Abstract This paper describes sixteen fire tests conducted on slender circular hollow section columns filled with normal and high strength concrete, subjected to concentric axial loads. The test parameters were the nominal strength of concrete (30 and 80MPa), the infilling type (plain concrete, reinforced concrete and steel fiber reinforced concrete) and the axial load level (20% and 40%). The columns were tested under fixed-pinned boundary conditions and the relative slenderness at room temperature was higher than 0.5 in all of the cases. A numerical model was validated against the tests, in order to extend the results and understand the failure mode of such columns. It is the aim of this paper to study the influence in a fire situation of the use of high strength concrete, as opposed to normal strength concrete. The results have shown that for slender columns subjected to high temperatures, the behavior of high strength concrete was different than for stub columns, spalling not being observed in the experiments. Furthermore, the addition of steel fibers was not found very advantageous in slender columns, since no increment in terms of fire resistance was obtained for the columns which used this type of reinforcement. However, the addition of reinforcing bars seems to be the solution in some cases, where the use of external fire protection wants to be avoided in the design of HSS structures, since the reinforcing bars allow the tube to resist a higher axial load.
Highlights ► Sixteen axially loaded fire tests were conducted on slender circular CFT columns. ► The influence of the use of high strength concrete in the fire resistance was studied. ► The addition of steel fibers or reinforcing bars was also studied. ► Spalling was not observed in the slender tests with high strength concrete.
Fire behavior of axially loaded slender high strength concrete-filled tubular columns
Abstract This paper describes sixteen fire tests conducted on slender circular hollow section columns filled with normal and high strength concrete, subjected to concentric axial loads. The test parameters were the nominal strength of concrete (30 and 80MPa), the infilling type (plain concrete, reinforced concrete and steel fiber reinforced concrete) and the axial load level (20% and 40%). The columns were tested under fixed-pinned boundary conditions and the relative slenderness at room temperature was higher than 0.5 in all of the cases. A numerical model was validated against the tests, in order to extend the results and understand the failure mode of such columns. It is the aim of this paper to study the influence in a fire situation of the use of high strength concrete, as opposed to normal strength concrete. The results have shown that for slender columns subjected to high temperatures, the behavior of high strength concrete was different than for stub columns, spalling not being observed in the experiments. Furthermore, the addition of steel fibers was not found very advantageous in slender columns, since no increment in terms of fire resistance was obtained for the columns which used this type of reinforcement. However, the addition of reinforcing bars seems to be the solution in some cases, where the use of external fire protection wants to be avoided in the design of HSS structures, since the reinforcing bars allow the tube to resist a higher axial load.
Highlights ► Sixteen axially loaded fire tests were conducted on slender circular CFT columns. ► The influence of the use of high strength concrete in the fire resistance was studied. ► The addition of steel fibers or reinforcing bars was also studied. ► Spalling was not observed in the slender tests with high strength concrete.
Fire behavior of axially loaded slender high strength concrete-filled tubular columns
Romero, Manuel L. (Autor:in) / Moliner, V. (Autor:in) / Espinos, A. (Autor:in) / Ibañez, C. (Autor:in) / Hospitaler, A. (Autor:in)
Journal of Constructional Steel Research ; 67 ; 1953-1965
26.06.2011
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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