Abstract
Thin layers of mortar reinforced with steel fibers can be applied on one or both sides of bearing walls as an effective seismic strengthening of existing masonry buildings. To assess the effectiveness of this technique, an experimental study on masonry sub-assemblages was carried out at the University of Brescia. This paper summarizes and discusses the main results of the investigation, which included mechanical characterization tests on masonry and its components as well as on the Steel Fiber Reinforced Mortar (SFRM) used to retrofit the masonry samples. Uniaxial and diagonal compression tests were carried out on both unstrengthened wallets and masonry samples retrofitted with 25 mm thick SFRM coating. Both single-sided and double-sided retrofitting configurations for application on wall surfaces were considered. The results highlighted the ability of the technique to improve the compressive and the shear behavior of masonry, even in case of single-sided strengthening. Moreover, no premature debonding of coating was observed. Lastly, the manuscript presents the results of a numerical investigation that was performed both to simulate the diagonal compression tests described in the first part of the paper and to predict the response of panels with different strengthening configurations.
Highlights
Unreinforced Masonry (URM) has been used for constructing a large number of buildings placed in seismic areas worldwide
Other technologies have been recently developed by adopting advanced materials such as externally bonded fiberreinforced polymers (FRP), near-surface mounted FRP rebars and surface coatings reinforced with polymer-based grid reinforcement [10,11,12,13,14,15]
A comprehensive set of material tests was carried out and critical discussed to investigate the potential of using a thin Steel Fiber Reinforced Mortar (SFRM) coating for the strengthening of existing URM wall or buildings
Summary
Unreinforced Masonry (URM) has been used for constructing a large number of buildings placed in seismic areas worldwide. Many different technologies have been developed for strengthening and rehabilitating URM buildings. 144 Page 2 of 22 coating [8]), prestressing with steel bars/ties and grout injections [9]. Besides these methods, other technologies have been recently developed by adopting advanced materials such as externally bonded fiberreinforced polymers (FRP), near-surface mounted FRP rebars and surface coatings reinforced with polymer-based grid reinforcement [10,11,12,13,14,15]
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