Abstract
This paper reports an experimental programme on masonry walls composed of handmade solid clay brick and hydraulic lime mortar. Reversed cyclic shear compression tests were carried out on the walls in three different configurations: unreinforced, repaired and retrofitted, and just retrofitted. Damaged walls were repaired and retrofitted with Basalt Textile Reinforced Mortar (B-TRM) and tested again to investigate the recovery of strength, stiffness and the improvement in drift capacity. The repair consisted in filling the open cracks and replacing the damaged bricks by following the so-called “scuci-cuci” technique. The just retrofitted configuration consisted of externally bonded B-TRM on undamaged walls. The B-TRM system comprised continuous bidirectional grids of basalt fibre embedded in hydraulic lime mortar on both surfaces of the walls. The experimental results showed the suitability of the proposed solutions for seismic retrofit and post-earthquake repair of existing masonry buildings. The research results highlighted the capacity of the proposed repair technique to reinforce damaged walls and the effectiveness of the investigated B-TRM system in increasing the resistance, the ductility, and the energy dissipation of unreinforced clay brick masonry. In addition, the results allowed a better understanding of the behaviour of masonry walls subjected to cyclic horizontal displacement in terms of failure mechanism and displacement capacities.
Highlights
Masonry is one of the oldest construction techniques used worldwide
This paper reports an experimental programme on masonry walls composed of handmade solid clay brick and hydraulic lime mortar
The research presented has investigated the experimental cyclical shear behaviour of masonry walls retrofitted with Basalt Textile Reinforced Mortar (B-Textile reinforced mortar (TRM)) based on a continuous bidirectional grid of low density basalt (LDB)
Summary
Masonry is one of the oldest construction techniques used worldwide. Its profusely use lies on its ease of construction and on its efficiency to withstand vertical gravitational loads. These results highlight the importance of considering the influence of the damaged condition of the masonry substrate on the global behaviour of the strengthened wall Within this context, an experimental programme was designed to better understand the in-plane behaviour of clay brick masonry walls in three different configurations: unreinforced, repaired and retrofitted with B-TRM, and just retrofitted with B-TRM. The experimental programme consisted in executing reversed cyclic shear compression tests (SCT), on six specimens, in order to assess the efficiency of the TRM systems as post-earthquake repair and seismic retrofitting technique. The research aimed at identifying damage propagation and crack patterns in order to shed light on the failure mechanisms triggering the collapse of masonry walls on the three configurations investigated This knowledge is of utmost importance for a better design of the different repairing and strengthening solutions
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