Automatic CAD kinematic limit analysis approach for the limit analysis of masonry towers

In this paper, a simple and fast 3D CAD approach to estimate the seismic vulnerability of existing masonry toweers is presented. The procedure consists in a 3D detailed geometric model of the tower made in CAD, where the structure is obtained by means of the assemblage of different 3D volumes having...

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Bibliographic Details
Main Authors: Pingaro, Natalia, Milani, Gabriele, Tiberti, Simone
Format: Conference Proceeding
Language:English
Subjects:
Failure analysis
Failure mechanisms
Historical buildings
Kinematics
Limit analysis
Masonry
Seismic activity
Seismic hazard
Splitting
Theorems
Three dimensional models
Towers
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Summary:In this paper, a simple and fast 3D CAD approach to estimate the seismic vulnerability of existing masonry toweers is presented. The procedure consists in a 3D detailed geometric model of the tower made in CAD, where the structure is obtained by means of the assemblage of different 3D volumes having complex shape. The choice of the different volumes is not only related to the need of distinguishing between different materials/weights/loads, but is primarily made to identify specific failure mechanisms activating at the interfaces between contiguous volumes. The collapse acceleration is then automatically evaluated applying the kinematic theorem of limit analysis for no tension materials on the pre-assigned failure mechanism chosen in the pre-procession phase. Some few mechanisms are tested in the paper, considering those occurring most frequently in past seismic events, as for instance vertical splitting, simple overturning at the base, rocking with inclined yield lines and combined rocking and vertical splitting. The inclusion of different mechanisms is very straightforward, simply requiring an updating of the number and shape of the volumes directly in the CAD software by means of the cutting plane command. The mechanism associated to the minimum acceleration, in agreement with the kinematic theorem of limit analysis, is that activating most probably in reality during a seismic event. The automatized procedure is fast and straightforward, being applicable also by all those technicians not familiar with Limit Analysis concepts. Two examples of technical relevance on two historical masonry towers in Italy are discussed to show the capabilities of the approach.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0026420