Load bearing capacity of thin-walled rectangular and I-shaped steel sections of short both empty and concrete-filled columns

Amor Bouaricha,Aziza Boutouta,Naoual Handel,Sarah Djouimaa

doi:10.3221/igf-esis.58.06

Abstract

In this experimental work, strength results obtained on short columns subjected to concentric loads are presented. The specimens used in the tests have made of cold-rolled, thin-walled steel. Twenty short columns of the same cross-section area and wall thickness have been tested as follows: 8 empty and 12 filled with ordinary concrete. In the aim to determine the column section geometry with the highest resistance, three different types of cross-sections have been compared: rectangular, I-shaped unreinforced and, reinforced with 100 mm spaced transversal links. The parameters studied are the specimen height and the cross-sectional steel geometry. The registered experimental results have been compared to the ultimate loads intended by Eurocode 3 for empty columns and by Eurocode 4 for compound columns. These results showed that a concrete-filled composite column had improved strength compared to the empty case. Among the three cross-section types, it has been found that I-section reinforced is the most resistant than the other two sections. Moreover, the load capacity and mode of failure have been influenced by the height of the column. Also, it had noted that the experimental strengths of the tested columns don’t agree well with the EC3 and EC4 results.

Highlights

T ubular steel columns filled with concrete have been widely used in structures around the world
The ultimate load is examined under the effect of the geometry of the empty sections (I shape or rectangular) (Fig. 3): it is observed that empty specimens (C1, C2, C3 and C4) of the section I record an increase in load capacity of (30.50%, 40.66%, 47% and 52.75%) respectively compared to the empty specimens (C5, C6, C7 and C8) of rectangular sections
It can be concluded that the height of thin-walled cold rolled steel columns has a negative influence on the axial load capacity

Summary

Introduction

T ubular steel columns filled with concrete have been widely used in structures around the world. Several studies have been carried out on the hollow steel columns filled with different types of concrete under axial loads. Handel [5] studied the effect of age and type of filler concrete on the ultimate strength of six rectangular thin-walled coldrolled steel hollow tubes under axial loading.

Results

Conclusion