TY - JOUR
T1 - Physics-Based Ground Motion Simulations for the Prediction of the Seismic Vulnerability of Masonry Building Compounds in Mirandola (Italy)
AU - Chieffo, Nicola
AU - Fasan, Marco
AU - Romanelli, Fabio
AU - Formisano, Antonio
AU - Mochi, Giovanni
N1 - Funding Information:
The first author thanks Franco Vaccari for his help in the seismic computations, which have been partially made using the XeRiS facilities (http://www.xeris.it/WebApp/, accessed on 10 October 2021). This work was developed under the financial support of the Italian Civil Protection Department, within the ReLUIS-DPC 2019–2021 research project, which is gratefully acknowledged.
Publisher Copyright:
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2021/12/20
Y1 - 2021/12/20
N2 - The current paper aims at investigating the seismic capacity of a masonry building aggregate in the historical centre of Mirandola based on a reliable ground motion simulation procedure. The examined clustered building is composed of eleven structural units (SUs) mutually interconnected to each other, which are made of brick walls and are characterized by wooden floors poorly connected to the vertical structures. Non-linear static analyses are performed by adopting the 3Muri software to characterize the seismic capacity of both the entire aggregate and the individual SUs. In this framework, a multi-scenario physics-based approach is considered for the definition of the seismic input in terms of broadband seismic signals inclusive of source and site effects. Finally, the incidence of the seismic input variability is discussed for the prediction of the global capacity response of the case study building.
AB - The current paper aims at investigating the seismic capacity of a masonry building aggregate in the historical centre of Mirandola based on a reliable ground motion simulation procedure. The examined clustered building is composed of eleven structural units (SUs) mutually interconnected to each other, which are made of brick walls and are characterized by wooden floors poorly connected to the vertical structures. Non-linear static analyses are performed by adopting the 3Muri software to characterize the seismic capacity of both the entire aggregate and the individual SUs. In this framework, a multi-scenario physics-based approach is considered for the definition of the seismic input in terms of broadband seismic signals inclusive of source and site effects. Finally, the incidence of the seismic input variability is discussed for the prediction of the global capacity response of the case study building.
KW - Fragility curves
KW - Masonry building aggregates
KW - Non-linear static analysis
KW - Seismic hazard analysis
KW - Seismic vulnerability assessment
UR - http://www.scopus.com/inward/record.url?scp=85121634889&partnerID=8YFLogxK
U2 - 10.3390/buildings11120667
DO - 10.3390/buildings11120667
M3 - Article
AN - SCOPUS:85121634889
VL - 11
JO - Buildings
JF - Buildings
SN - 2075-5309
IS - 12
M1 - 667
ER -