Abstract
Historic monuments and construction capture the knowledge of civilizations of the past and are a source of pride for people of the present. Over the centuries, these buildings have been at risk from natural and man-made causes. The Alhambra, a UNESCO World Heritage Site in Granada, Spain, is one of such places. This paper aims to evaluate the structural performance of the Torre de la Vela, a tower in the Alhambra, under blast loads. The loads were based on historical records of barrels of gunpowder and were modeled as simplified pressure profiles using existing empirical equations. The effect of impulsive loading on the material properties was accounted for using dynamic increase factors, determined experimentally by previous authors. The model was created using finite element methods (FEM) and the problem was solved using explicit dynamic analysis available in Abaqus/Explicit. Using the failure volume damage index, a blast load applied outside and inside of the building would create a low damage level, which should be treated with caution given the occurrence of localized damage. The removal of elements exceeding a given damage threshold led to more visible damage patterns than the Concrete Tension Damage option in Abaqus.
Highlights
The vulnerability of masonry envelopes under blast loading is critical due to the potential loss of lives
Damage induced by blast loading on an earthen masonry structure is studied using the finite element method (FEM)
Static material properties have previously been used in research work on the structural response and damage under impact and blast loading, which can lead to an inaccurate prediction of the damage [6,7]
Summary
The vulnerability of masonry envelopes under blast loading is critical due to the potential loss of lives. Blasts near or inside a building can damage and destroy parts of the building and can produce both local and global responses related to different failure modes within structural members. The out-of-plane response of masonry under dynamic loading is critical due to the risk this poses on the loss of life. Damage induced by blast loading on an earthen masonry structure is studied using the finite element method (FEM). Materials can have different behavior when compared with quasi-static conditions [2,3,4,5]. Static material properties have previously been used in research work on the structural response and damage under impact and blast loading, which can lead to an inaccurate prediction of the damage [6,7].
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