Concrete Filled Steel Tube Columns Fire Resistance

The fire resistance of concrete filled square steel tube columns cft columns without fire protection under a constant axial load has been previously examined.

Concrete filled steel tube columns fire resistance.

There is an equation to calculate the fire resistance of a concrete filled hss column that comes from asce 29 calculation methods for structural fire prevention and is shown in aisc design guide 19 fire resistance of structural steel framing. A unified method for calculating fire resistance of solid and hollow concrete filled steel tube columns based on average temperature eng struct 71 2014 pp. Using the model the fire resistance of circular concrete filled steel columns can be evaluated for any value of the significant parameters such as load column section dimensions column length and percentage of reinforcing steel without the necessity of testing. However limited work has been done on the resistance of concrete filled steel tube columns subjected to non uniform fire conditions and a calculation method with clear physical meanings is useful to structural engineers.

This paper introduces simplified design methods for calculating the load bearing capacity of axially loaded concrete filled carbon steel tubular cfst stub columns and concrete filled stainless steel tubular cfsst stub columns. These columns are of generic design non proprietary. This paper presents a nonlinear thermal stress analysis method for predicting the mechanical behavior and fire resistance of cft columns under eccentric axial load axial load and flexure moment. The fire resistance depends on the effective length of the column the outside dimension of the column either the diameter of a round.

Concrete encased steel columns have been pre qualified by many fire tests. Therefore they are not listed in the ul directory. A 3 d finite element model was developed to carry out both the numerical heat transfer and nonlinear stress analyses. The use of concrete filled steel tube cfst columns offers an alternative for providing the required fire resistance and load bearing capacity making its use in medium and high rise structures.

If the water can be constantly circulated and renewed fire resistance is essentially unlimited. The main objective of this study is to investigate the effects of high strength structural steel on the fire resistance of concrete filled steel tubular cfst columns under constant axial load using finite element analysis. Concrete filled steel tube columns have been widely applied in modern construction. The purpose of this present study is to investigate the fire resistance of cft columns when they are subjected to combined loads.