The numerical modelling of the time evolution of stresses and strains in brickwork under sustained loads is dealt with, within the framework of linear viscoelasticity. Finite element analyses were carried out, using three different masonry models: a simplified 2D layered model, and two 3D models (one for header bond masonry; one for Flemish bond masonry). The creep behaviour of the component materials (bricks and mortar) was defined according to experimental data available in the literature. These results were best fitted by Prony series, and the obtained creep laws were employed to carry out FE analyses of the masonry walls with different textures. Owing to the different mechanical response of the components to sustained loads, the stress and strain distribution in the wall changes in time and differs from that at the beginning of the loading process. The different behaviour of the two considered brick patterns is pointed out. The possibility of applying the simplified layered model instead of refined 3D models to predict the time evolution of stresses and strains is discussed.

Numerical models to predict the creep behaviour of brickwork

TALIERCIO, ALBERTO
2011-01-01

Abstract

The numerical modelling of the time evolution of stresses and strains in brickwork under sustained loads is dealt with, within the framework of linear viscoelasticity. Finite element analyses were carried out, using three different masonry models: a simplified 2D layered model, and two 3D models (one for header bond masonry; one for Flemish bond masonry). The creep behaviour of the component materials (bricks and mortar) was defined according to experimental data available in the literature. These results were best fitted by Prony series, and the obtained creep laws were employed to carry out FE analyses of the masonry walls with different textures. Owing to the different mechanical response of the components to sustained loads, the stress and strain distribution in the wall changes in time and differs from that at the beginning of the loading process. The different behaviour of the two considered brick patterns is pointed out. The possibility of applying the simplified layered model instead of refined 3D models to predict the time evolution of stresses and strains is discussed.
2011
Structural studies, repairs and maintenance of heritage architecture XII
978-1-84564-526-7
masonry; creep; linear viscoelasticity; header bond; Flemish bond.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/600299
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