Behaviour of concrete deep beams with openings and low shear span-to-depth ratio

The goal of this study is to experimentally and analytically evaluate the influence of circular openings in reinforced concrete deep beams with low shear span-to-depth ratio.Twenty reinforced concrete small-scale deep beams with or without openings were tested in flexure under four-point loading. The beams had a small shear span-to-depth ratio in order to stress the shear behavior. The specimens had different reinforcement arrangements and opening positions. The load was transmitted to the specimen with bearing plates having the same side length as the beam. Two LVDT’s were arranged to record the transverse and axial strain of the theoretical struts forming in the beam. Additionally another device was mounted to measure the middle deflection of the beam.Comparative analysis of the experimental results shows that: the effect of the hole depends on its position in the beam; the benefit of the presence of reinforcement depends on its arrangement.An analytical model is proposed to predict the shear strength and corresponding deflection of deep beams with openings and the results are also compared with a non-linear finite element analysis showing good agreement.

► Twenty small-scale deep beams were tested under four point loading. ► Sixteen beams had a circular opening placed within or out the shear span. ► The effect of the opening position and reinforcement arrangement was recorded. ► Analytical predictions were made using both macroscopic and FE modeling approaches. ► Good agreement between analytical and experimental results was found.