A detailed experimental mechanical characterization of multi-perforated clay brick masonry
Revista : Journal of Building EngineeringVolumen : 63
Páginas : 105505
Tipo de publicación : ISI Ir a publicación
Abstract
Multi-Perforated Clay Bricks (MPCLBs) are widely used in the construction of modern masonry structures worldwide, including earthquake-prone areas. However, few experimental studies have been carried out aimed at performing a detailed mechanical characterization of their behavior under different loading conditions. In the present paper, tests on masonry constituent materials and assemblages (triplets, rectangular prisms, and panels) made of MPCLBs are carried out, and some relationships between masonry properties useful for design purposes or numerical simulations are derived, including compression strength, Youngs modulus, shear strength, and shear modulus. From the results, it is observed that decreasing mortar compressive strength and increasing joints height are detrimental to masonry properties. Furthermore, a masonrycompressive strength equation is fitted to the test results representative of Chilean masonry construction, which significantly overperforms the current Chilean standard formula. Also, digital image correlation is used to confirm the effect of mortar entering bricks perforations on the shear response of the mortar-brick interface.