Abstract
This paper presents an experimental investigation into possible variations of mechanical properties of structural steel and concrete in composite cellular beams exposed to ISO 834 fire and cooled down phases. Four full-scale fire tests were performed on protected and unprotected beams under assumed service loads. Tensile stress-strain behavior of steel coupons taken from the beams and compressive strengths of concrete cores taken from the reinforced concrete slabs are studied. Material coupon tests for steel are carried out as per TS EN ISO 6892-1. As for the concrete, compression tests were conducted. Coupon test results reveal that, after fire testing, a maximum reduction ratio of 65% in ultimate strain is obtained for the unprotected beam samples. This indicates that the reductions in the mechanical properties of steel in the protected beams are much less when compared to those of the unprotected beams. It is also found that the maximum increase in post-fire strength/pre-fire strength ratios for concrete is 11% for the unprotected beam, while a 20 % decrease is recorded for water based protected cellular beam. For the protected specimens, the RC slabs were exposed to higher temperatures, and the compressive strength of concrete after testing was lower than that of the unprotected beam slabs.
Highlights
With the help of computerized cutting and re-assembly by arc welding, steel-concrete composite cellular beams are frequently used in multi-story steel framed structures for increased strength and stiffness, thereby leading to cost-effective solutions
In order to determine the effectiveness of level of fire protection, this study emphasizes on possible variations in mechanical properties of steel and concrete materials used in fire testing of steel-concrete composite cellular beams
At the end of the fire tests, tensile tests were conducted on the coupon samples taken from the web of steel profiles to determine the potential changes in the mechanical properties of the samples exposed to high temperatures and cooling phase in the furnace with air
Summary
With the help of computerized cutting and re-assembly by arc welding, steel-concrete composite cellular beams are frequently used in multi-story steel framed structures for increased strength and stiffness, thereby leading to cost-effective solutions. Given a maximum depth and minimum service opening dimensions, an optimum solution for cellular beam design is possible. These beams are much affected by fire loading mainly from open web configurations and deserve in-depth investigation. This paper discusses potential changes in material mechanical properties of steel-concrete composite cellular I-beams. Both protected (solvent and water based intumescent coating) and unprotected beams are investigated under ISO 834 [1] heating and cooling phases. In order to determine the effectiveness of level of fire protection, this study emphasizes on possible variations in mechanical properties of steel and concrete materials used in fire testing of steel-concrete composite cellular beams. This study reviews some of the previous work-done by others and provide valuable insights into experimentally obtained pre and post fire material strengths
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