Title:
Seismic retrofit of concrete slabs against punching shear: Testing and modelling
Author(s):
Dritan Topuzi, Maria Anna Polak, Sriram Narasimhan
Publication:
Symposium Paper
Volume:
315
Issue:
Appears on pages(s):
319-336
Keywords:
Flat slab, punching reinforcement, reinforced concrete flat-plate system
DOI:
Date:
4/1/2017
Abstract:
The focus of this research is on developing new punching shear retrofit techniques for slab-column connections to improve the seismic response of flat-plate systems. Previous tests have shown the effectiveness of using shear reinforcement to enhance the shear strength and ductility of individual slab-column connections. However, the advantage of ductility in reducing the earthquake impact on structures is accompanied by an increase in the base shear, due to increased stiffness. Herein, a new type of punching shear retrofit element, shear bolts with flexible washers, is introduced. The flexible washers allow for shear crack opening during the lateral displacements, while at the same time providing control of the crack width by controlling the washer thickness and/or stiffness. The results show that this technique increases the ductility of the connections, without a commensurate increase in stiffness. The effect of this type of shear reinforcement on the response of an assembled structure is investigated through dynamic analysis, to check how energy dissipation within individual connections affects the overall energy dissipation of a flat-plate system. The presented system was designed for slab retrofit. However, it can be anticipated that similar concepts could be used in the construction of new slabs in seismic zones.