The effect of stirrup spacing and hook angle on RC cantilever beams with iron chip waste

In this study, the usability of industrial iron chip waste was investigated to provide recycling in the production of reinforced concrete cantilever beams with different stirrup spacings and hook angles. In the concrete produced for cantilever beams, aggregates not larger than 4 mm in diameter were reduced by 20% and replaced with iron chip waste. Cantilever beams are manufactured with stirrup spaces of 50, 100 and 150 mm. The hook angles of the stirrups are differentiated to be 90 and 135 degrees. The experimental setup was prepared in such a way that one side of the samples was fixed, and the other side was free. Load-displacement curves of cantilever beams were obtained. In the research, it was observed that although cantilever beams with 20% iron chips experienced a decrease in their strength compared to the reference beams, they increased their ductility values at all three different stirrup spaces. As the stirrup spacing widened, the ductility values decreased. However, the effect of iron chip additives on ductility has increased. Samples with a stirrup hook angle of 135 degrees increased both strength and ductility values compared to samples with a stirrup hook angle of 90 degrees.