Abstract

Over the past few decades, the conservation and seismic assessment of historical buildings has gained great importance. In particular, the prediction of the dynamic response of masonry constructions plays a central role in retrofitting and conservation interventions. Finite element modelling has become the most common and accessible approach to study the behavior of complex masonry structures, however, the gap between numerical and experimental analysis may lead to erroneous results. This work describes the model updating procedure applied to the finite element model of San Giovanni’s church in Macerata, condemned in October 2016 after the Central Italy Earthquake. The laboratory of Proof and Research on Structures and Materials of Roma Tre University carried out an extensive in-situ testing campaign including geometric survey, video endoscopy, flat-jack test, sonic tomography and ambient vibrations test in order to investigate the state of the building. The work involved both numerical and experimental analysis: the results of the testing campaign were interpreted and correlated with an accurate finite element model developed with the software Midas Gen. Operational modal analysis was performed in order to extract the modal parameters of the building (modal frequencies, shape vectors and modal damping). Material characteristics and boundary conditions were updated according to the Douglas-Reid method. In the end, the final model was compared to the initial model to evaluate and discuss the process.

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References

[1] O. Gentili, "Memorie storiche raccolte," in Macerata sacra, Recanati, Simboli, 1947, p. 167.

[2] Archivio Priorale di Macerata, Instrumentorum, n. 858, Macerata: Archivio di Stato di Macerata (ASM), 1606-1609.

[3] P. Pirri, "Giovanni Tristano e i primordi dell'architettura gesuitica," Roma, 1955, p. 39.

[4] G. Cruciani-Fabozzi, "Rosato Rosati e l’architettura maceratese del Seicento," in "Vita e cultura del Seicento nella Marca", Macerata, 1977.

[5] MIDAS Information Technology Co., "Midas Gen v1.1," 2015.

[6] R. Brincker and C. Ventura, Introduction to Operational Modal Analysis, Wiley, 2015.

[7] C. Gentile and A. Saisi, "Ambient vibration testing of historic masonry towers for structural identification and damage assessment," Construction and Building Materials, pp. 1311-1321, 2006.

[8] M. G. Masciotta and L. F. Ramos, "Dynamic Identification of Historica Masonry Structures," in Long-term performance and durability of masonry structures, Woodhead Publishing Series in Civil and Structural Engineering, 2019, pp. 241-264.

[9] S. I. S. NV, "Simcenter Testlab Version 18.0," 2018.

[10] C. Baggio, V. Sabbatini, S. Santini and C. Sebastiani, ""Multi-Run Operational Modal Analysis of a masonry historical church: the case study of San Giovanni in Macerata," in Rehabend 8th Euro-American COngress, Granada, 2020.

[11] A. De Stefano, E. Matta and P. Clemente, "Structural health monitoring of historical heritage in Italy: some relevant experiences," Journal of Civil Structural Health Monitoring, pp. 83-106, 2016.

[12] T. Zordan, B. Briseghella and T. Liu, "Finite element model updating of a tied-arch bridge using Douglas-Reid method and Rosenbrock optimization algorithm," Journal of Traffic and Transportation Engineering, pp. 280-292, 2014.

[13] C. Costa, A. Arede, A. Costa, E. Caetano, A. Cunha and F. Magalhaes, "Updating Numerical Models of Masonry Arch Bridges by Operational Modal Analysis," International Journal of Architectural Heritage, pp. 760-774, 2015.

[14] C. Baggio, V. Sabbatini and S. Santini, "Model Updating of a Masonry Historical Church based on Operational Modal Analysis: the case study of San Filippo Neri in Macerata," in 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, Crete, Greece, 24–26 June 2019.

[15] M. Acito, C. Chesi, C. Lazzarin and E. Richermo, "Historical reinforced concrete arch bridges: Dynamic identification and seismic vulnerability assessment," Insights and Innovations in Structural Engineering, Mechanics and Computation, 2016.

[16] A. De Stefano, R. Ceravolo, E. Matta, A. Quattrone and L. Zanotti, "Identificazione dinamica sperimentale di edifici strategici sotto sisma," Ingenio. Informazione tecnica e progettuale, 12 Aprile 2012.

[17] C. Gentile, "Modal and structural identification of a R.C. arch bridge," Structural Engineering and Mechanics, pp. 53-70, 2006.

[18] B. M. Douglas and W. H. Reid, "Dynamic Tests and System Identification of Bridges," Journal of the Structural Division, pp. 2295-2312, 1982.

[19] A. Cabbai, C. Gentile and A. Saisi, "Frequency tracking and F.E. model identification of a masonry tower," in 5th International Operational Modal Analysis Conference, Guimaraes, Portugal, 2013.

[20] Simulink, "MATLAB R2019a".