This paper presents a preliminary numerical investigation in preparation for the shake table testing of an unreinforced masonry specimen. The structure is designed to be representative of existing heritage buildings in central Italy. The study explores the impact of different retrofitting strategies, including floor stiffness and floor-to-wall connection. A detailed 3D finite element model of the prototype structure is developed using the STKO platform for OpenSees and subjected to nonlinear dynamic analyses. The effectiveness of each intervention is assessed in terms of damage onset and propagation, and the results are compared to the unreinforced case. The findings offer valuable feedback to guide the design of the specimen for the upcoming shake table test but also provide thoughtful overview about the impact of the different interventions to the seismic performance.

(2026). Toward Shake Table Testing: Preliminary Numerical Study on Seismic Retrofit Interventions for Masonry Buildings . Retrieved from https://hdl.handle.net/10446/317966

Toward Shake Table Testing: Preliminary Numerical Study on Seismic Retrofit Interventions for Masonry Buildings

Marini, Alessandra;Passoni, Chiara;Belleri, Andrea;
2026-01-01

Abstract

This paper presents a preliminary numerical investigation in preparation for the shake table testing of an unreinforced masonry specimen. The structure is designed to be representative of existing heritage buildings in central Italy. The study explores the impact of different retrofitting strategies, including floor stiffness and floor-to-wall connection. A detailed 3D finite element model of the prototype structure is developed using the STKO platform for OpenSees and subjected to nonlinear dynamic analyses. The effectiveness of each intervention is assessed in terms of damage onset and propagation, and the results are compared to the unreinforced case. The findings offer valuable feedback to guide the design of the specimen for the upcoming shake table test but also provide thoughtful overview about the impact of the different interventions to the seismic performance.
2-s2.0-105035014005
2026
Inglese
Structural Analysis of Historical Constructions. SAHC 2025. Vol 2.
Saloustros, Savvas; Beyer, Katrin;
978-3-032-16766-8
978-3-032-16767-5
RILEM BOOKSERIES
68
1520
1532
cartaceo
online
Switzerland
Springer
SAHC 2025: 14th International Conference on Structural Analysis of Historical Constructions. Losanna, Svizzera, 15-17 Settembre 2025
14
Lausanne (Svizzera)
15-17 September 2025
internazionale
contributo
Settore CEAR-07/A - Tecnica delle costruzioni
Masonry; Retrofitting; Finite Element; Shaking Table; OpenSees; STKO;
info:eu-repo/semantics/conferenceObject
8
Di Benedetto, M.; Villar, S.; Di Trapani, F.; Marini, Alessandra; Passoni, Chiara; Belleri, Andrea; Camata, G.; Spacone, E.
1.4 Contributi in atti di convegno - Contributions in conference proceedings::1.4.01 Contributi in atti di convegno - Conference presentations
reserved
Non definito
273
(2026). Toward Shake Table Testing: Preliminary Numerical Study on Seismic Retrofit Interventions for Masonry Buildings . Retrieved from https://hdl.handle.net/10446/317966
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