Modeling of Structural Masonry Palabras
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Date
2023-01-01
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Amjad Almusaed and Asaad Almssad
Abstract
Masonry is a composite material, and its behavior shows that its weaknesses lie in
the minimum resistance of its components and the characteristics of the interfaces
between them. Ceramic brick masonry has technological characteristics that make
it suitable for housing and building functions. The bricks, of reduced dimensions
and joined with mortars of variable characteristics, have the advantage of adapting
to almost all construction projects considering the influence of the environment on
their service life. The investigation of the structural behavior of masonry has had very
significant advances in the laboratory during the last mid-century, which has allowed
numerical modeling of the behavior of the material and validation of failure modes
under seismic actions. The behavior of heritage masonry with thick walls differs
greatly from simple masonry using conventional techniques and materials. These
differences in behavior have only been confirmed through numerical simulation
contrasted with experimental research. This chapter presents the numerical modeling
used for simple and confined masonry with reinforced concrete and for very thick
heritage masonry, using the finite element method validated with full-scale laboratory experiences.
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Keywords
Masonry modeling, Earthquake, Thickness, Simulation, FEM
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