Effect of Shape, Number, and Location of Openings on Punching Shear Capacity of Flat Slabs

Experimental evidence have proved that punching shear capacity of flat slabs deteriorate with the presence of openings located within the critical perimeter around columns. It is understood that this deterioration varies inversely with the distance of openings from column's face. However, effect of the shape of openings on punching shear capacity is not well known. This study presents experimental results of 14 flat specimens to investigate the effects of the number (2 and 4), shape (circular, square, and rectangular), and location (1 and 4 times of slab's thickness from column's face) of openings on punching shear strength. It was found that circular openings had least influence on punching capacity followed by square and rectangular openings, respectively. Further, placing openings at a distance of four times the slab's thickness from column's face had minimal impact on punching capacity. Further, increasing the number of openings from 2 to 4 substantially reduced the punching capacity. An effort was made to predict the punching capacities of all specimens using the descriptive equations of ACI 318-19 and Eurocode 2. Mean of the ratio of experimental to analytical results and standard deviation of ACI equations were found to be more accurate than those of Eurocode 2 predictions.

Automated summary

The shape and location of openings affect the punching shear capacity of flat slabs, with circular openings having the least impact, openings placed 4 times the slab's thickness from the column's face having minimal effect, and increasing the number of openings substantially reducing the capacity. The predictive accuracy of ACI 318-19 equations was found to be better than that of Eurocode 2.