Page 43 - Master Magazine 9
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Riferimenti
[1] A. Dall’Asta, G. Leoni, F. Micozzi, L. Gioiella and L. Ragni, A Resilience and Robustness
Oriented Design of Base-Isolated Structures: The New Camerino University Research
Center. Front. Built Environ. 6:50. 2020. doi: 10.3389/fbuil.2020.00050
[2] Ragni L, Micozzi F, Tubaldi E and Dall’Asta A. Seismic behaviour of a rc frame isolated by
hdnr bearings under increasing intensity levels. 7th ECCOMAS Thematic Conference
COMPDYN 2019. Crete, Greece, 24–26 June 2019
[3] F. Bettinali, M. Forni, M. Indirli, A. Martelli, P. Masoni, G. Bonacina, On site dynamic te-
sts ofa large seismically isolated building. Proceedings of International Meeting on
Earthquake Protection of Buildings, Ancona, Italy. 1991, p. 145.
[4] M. Forni, A. Martelli, B. Spadoni, E. Casalini, G. Bonacina, G. Pucci, Dynamic tests on
seismically isolated structure mockups and validation of numerical models. Proceedings
of International Meeting on Earthquake Protection of Buildings, Ancona, Italy. 1991, p.
169.
[5] A.R. Bixio, M. Dolce, D. Nigro, F.C. Ponzo, F. Braga, M. Nicoletti, Repeatable dynamic re-
lease tests on a base-isolated building. Journal of Earthquake Engineering
2001;5(3):369–93.
[6] F. Braga, M. Laterza. Field testing of low-rise base isolated building. Engineering Struc-
tures, 2004; 26(11): 1599–1610. DOI: 10.1016/j.engstruct.2004.06.002.
[7] N.D. Oliveto, G. Scalia G, G. Oliveto. Time domain identification of hybrid base isolation
systems using free vibration tests. Earthquake Engineering & Structural Dynamics 2010:
DOI: 10.1002/eqe.984.
[8] F.C. Ponzo, R. Ditommaso, D. Nigro, R. Romaniello, D. Cardone, Analysis of dynamic be-
haviour of a base isolated building: a release test in Augusta (SI), 2nd European confer-
ence on earthquake engineering and seismology, Instanbul, 2014
[9] M.F. Ferrotto, L. Cavaleri, F.Di Trapani, P. Castaldo. Full scale tests of the base-isolation
system for an emergency hospital, 7th ECCOMAS Thematic Conference COMPDYN 2019.
Crete, Greece.
[10] Web site URL: https://youtu.be/Ou95s6_Jcws
[11] FIP, S02-Isolatori Elastomerici Serie SI (italian), 2016. Available online at:
www.fipindustriale.it (October, 2019).
[12] NTC 2018 (2018). Aggiornamento delle “Norme Tecniche per le costruzioni” (in italian).
D:M: 17/01/2018 Ministry of Infrastructure and Transport.
[13] European Committee for Standardization. EN 15129:2010 - Antiseismic devices, Brussels,
Belgium, 2010.
[14] L. Castanon-Jano, E. Blanco-Fernandez, D. Castro-Fresno, F. Ballester-Muñoz, Energy
Dissipating Devices in Falling Rock Protection Barriers. Rock Mechanics and Rock Engi-
neering 2017; 50(3): 603–619. DOI: 10.1007/s00603-016-1130-x.
[15] M. Dolce, D. Cardone, F. Croatto, Frictional Behavior of Steel-PTFE Interfaces for Seismic
Isolation. Bulletin of Earthquake Engineering, 3:75–99, 2005
[16] E. Tubaldi, L. Ragni, A. Dall’Asta, H. Ahmadi, A. Muhr, Stress softening behaviour of
HDNR bearings: modelling and influence on the seismic response of isolated structures.
Earthquake Engineering & Structural Dynamics, 2017. DOI: 10.1002/eqe.2897.