Post‐fire Residual Strength and Ductility of Structural Steels from Hollow Sections

Abstract: Steel structures are severely affected by the extreme temperatures reached during a fire. After this, if the structure has not collapsed, the remaining elements can be reused if they are not excessively distorted or the material is still fit for service. In the last case, residual properties of steel must be adequate and fulfil the requirements of the current standards. On this matter, it is hypothesized that residual behaviour of steel not only depends on the highest temperature reached during the fire episod… Show more

“…From Figures 7-8, the values shown in Tables 7-8 can be determined: There are some combinations of target temperature and degree of utilisation in which the ductility requirement (mainly that on ε f ) is not fulfilled after cooling down. This result was also found in previous works on mild steels [7][8].…”

“…The experimental setup is depicted in Figure 1 and it was used in previous works of the authors [7][8]. It consisted of a hydraulic universal testing machine equipped with a 200 kN load cell, controlled by a closed-loop system.…”

“…The combined influence of load and temperature in the post-fire behaviour of steel has been studied in a few works on mild steel [7][8] but there are no works concerning HSS.…”

Influence of load and high temperature on the post‐fire behaviour of high‐strength structural steels

“…From Figures 7-8, the values shown in Tables 7-8 can be determined: There are some combinations of target temperature and degree of utilisation in which the ductility requirement (mainly that on ε f ) is not fulfilled after cooling down. This result was also found in previous works on mild steels [7][8].…”

“…The experimental setup is depicted in Figure 1 and it was used in previous works of the authors [7][8]. It consisted of a hydraulic universal testing machine equipped with a 200 kN load cell, controlled by a closed-loop system.…”

“…The combined influence of load and temperature in the post-fire behaviour of steel has been studied in a few works on mild steel [7][8] but there are no works concerning HSS.…”

Influence of load and high temperature on the post‐fire behaviour of high‐strength structural steels

Experimental residual capacity of steel-reinforced concrete-filled steel tubular stub columns after fire exposure