PSI - Issue 44

Giovanni Tondo et al. / Procedia Structural Integrity 44 (2023) 243–250

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Giovanni Tondo et al. / Structural Integrity Procedia 00 (2022) 000–000

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D.a.D.O. platform following the 2009 L’Aquila Earthquake, with the aim to assess the effectiveness of RVS methodologies available in the literature. It was found that, although some methodologies are able to reasonably predict the main vulnerability trends across different buildings, some efforts are still required in order to calibrate such methods, while focusing on the specific features of Italian masonry buildings. As such, the masonry building portfolio presented in this study will be used in future studies to calibrate a specific ad-hoc RVS procedure based on the results of nonlinear static analyses and the damage observed in the aftermath of past earthquakes, in order to prioritize the most vulnerable buildings and to assist decision makers in implementing seismic risk reduction strategies. References Achs, G., Adam, C. Rapid seismic evaluation of historic brick-masonry buildings in Vienna (Austria) based on visual screening. Bull Earthquake Eng 10, 1833–1856 (2012). https://doi.org/10.1007/s10518-012-9376-5. Alper Aldemir, Emre Guvenir, Mustafa Sahmaran, Rapid screening method for the determination of regional risk distribution of masonry structures, Structural Safety, Volume 85, 2020, 101959, ISSN 0167-4730, https://doi.org/10.1016/j.strusafe.2020.101959. Athmani, A. E., Gouasmia, A., Ferreira, T. M., Vicente, R., Khemis, A., 2015. Seismic vulnerability assessment of historical masonry buildings located in Annaba city (Algeria) using non adhoc data survey. Bull Earthquake Eng. 13(8):2283–2307. Augenti, N., Parisi, F., 2010. Learning from construction failures due to the 2009 L'Aquila, Italy, earthquake. J. Perform. Constr. Facil. 24, 536 555. Baggio, C, Bernardini, A, Colozza, R, Corazza, L, Della Bella, M, Di Pasquale, G, Papa, F, 2007. Field manual for post-earthquake damage and safety assessment and short-term countermeasures (AeDES). European Commission—Joint Research Centre—Institute for the Protection and Security of the Citizen, EUR. p. 22868. Calderoni, B., Cordasco, E. A., Sandoli, A., Prota, A., 2016. Seismic vulnerability assessment of ‘ancient’ masonry buildings and strengthening intervention strategies, Proceedings of the 16th International Brick and Block Masonry Conference, IBMAC 2016: 727–736 Circolare, 2019. Istruzioni per l'applicazione dell'«Aggiornamento delle "Norme tecniche per le costruzioni"» di cui al decreto ministeriale 17 gennaio 2018. Colozza, R, Bellizzi, M, Marini, G, 2000. An emergency technical operation handbook for civil protection operative centers born of the Italian experience in Umbria–Marche and Pollino earthquakes. In: 12th world conference on earthquake engineering, Auckland, New Zealand, p 2506. Federal Emergency Management Agency (FEMA), 2015. FEMA P-154: Rapid Visual Screening of Buildings for Potential Seismic Hazards: A Handbook; Applied Technological Council (ATC): Waschington, DC, USA. Ferreira, T.M., Maio, R., Vicente, R., 2017. Seismic vulnerability assessment of the old city centre of Horta, Azores: calibration and application of a seismic vulnerability index method, Bull. Earthq. Eng. 15, 2879–2899, https://doi.org/10.1007/s10518-016-0071-9. Fiorentino, G., Forte, A., Pagano, E. et al. Damage patterns in the town of Amatrice after August 24 th 2016 Central Italy earthquakes. Bull Earthquake Eng 16, 1399–1423 (2018). https://doi.org/10.1007/s10518-017-0254-z Gaudio, C., Scala, S., Ricci, P., Verderame, G., 2021. Evolution of the seismic vulnerability of masonry buildings based on the damage data from L'Aquila 2009 event. Bulletin of Earthquake Engineering. 19. 10.1007/s10518-021-01132-x. GNDT, 1994. Scheda di Esposizione e Vulnerabilità e di Rilevamento Danni di Primo e Secondo Livello (Murata e Cemento Armato), Italy. Kawashima, Kazuhiko & Aydan, Ömer & Aoki, Takayoshi & Kishimoto, Ichizo & Konagai, Kazuo & Matsui, Tomoya & Sakuta, Joji & Takahashi, Noriyuki & Teodori, Sven-Peter & Yashima, Atsushi & Kawashima, K & Aoki, T. & Kisimoto, I & Konagai, Kazuo & Matsui, T & Takahashi, N & Yashima, S., 2010. Damage of 2009 L’Aquila, Central Italy Earthquake. J Earthq Eng. 14. Kegyes-Brassai, O., 2022. Conventional RVS Methods for Seismic Risk Assessment for Estimating the Current Situation of Existing Buildings: A State-of-the-Art Review. Sustainability, 14, 2583. https://doi.org/10.3390/su14052583. Mucciarelli, M., Liberatore, D., 2014. Guest editorial: The Emilia 2012 earthquakes, Italy. Bull Earthquake Eng 12, 2111–2116. https://doi.org/10.1007/s10518-014-9629-6 Petrini, V., Benedetti, D., 1984. Sulla vulnerabilita sismica di edifici in muratura: proposta su un metodo di valutazione. A method for evaluating the seismic vulnerability of masonry buildings, L’industria delle Costruzioni 66–74. Ruggieri, S., Perrone, D., Leone, M., Uva, G., Aiello, M. A., 2020. A prioritization RVS methodology for the seismic risk assessment of RC school buildings, International Journal of Disaster Risk Reduction, Volume 51, 101807, ISSN 2212-4209, https://doi.org/10.1016/j.ijdrr.2020.101807. Scala, S. A., Del Gaudio, C., Verderame, G. M., 2022. Influence of construction age on seismic vulnerability of masonry buildings damaged after 2009 L’Aquila earthquake , Soil Dynamics and Earthquake Engineering, Volume 157, 2022, 107199, ISSN 0267-7261, https://doi.org/10.1016/j.soildyn.2022.107199. Tocchi, G., Polese, M., Di Ludovico, M., Prota, A., 2022. Regional based exposure models to account for local building typologies. Bulletin of Earthquake Engineering. 20. 10.1007/s10518-021-01242-6. Vicente, R., Parodi, S., Lagomarsino, S., Varum, H., Silva, R., 2011. Seismic vulnerability and risk assessment: Case study of the historic city centre of Coimbra, Portugal. Bulletin of Earthquake Engineering. 9. 1067-1096. 10.1007/s10518-010-9233-3. Xofi, M., Domingues, J. C., Santos, P. P., Pereira, S., Oliveira, S. C., Reis, E., Zêzere, J. L., Garcia, R. A. C., Lourenço, P. B., Ferreira T. M., 2022. Exposure and physical vulnerability indicators to assess seismic risk in urban areas: a step towards a multi-hazard risk analysis, Geomatics, Natural Hazards and Risk, 13:1, 1154-1177, DOI: 10.1080/19475705.2022.2068457Clark, T., Woodley, R., De Halas, D., 1962. Gas-Graphite Systems, in “Nuclear Graphite”. In: Nightingale, R. (Ed.). Academic Press, New York, pp. 387.