PSI - Issue 62

Fabrizio Scozzese et al. / Procedia Structural Integrity 62 (2024) 911–915 Fabrizio Scozzese / Structural Integrity Procedia 00 (2019) 000 – 000

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Scozzese & Dall’Asta (2024), where an extensive parametric analysis is performed to assess the influence of all the main parameters governing the problem at hand. Moreover, future application will be aimed at exploiting data recorded from real monitored bridges in order to validate the current theoretical results. Fundings This research was funded in part by the European Union - FSE, Pon Research and Innovation 2014-2020 . Research Project title: Synergistic use of innovative sensors and new data analysis procedures for the safety of infrastructures . References Borzi, B., Ceresa, P., Franchin, P., Noto, F., Calvi, G. M., & Pinto, P. E. (2015). Seismic vulnerability of the Italian roadway bridge stock. Earthquake Spectra, 31(4), 2137 - 2161. Brincker, R., & Ventura, C. (2015). Introduction to operational modal analysis. John Wiley & Sons. Chen, B., Zhao, S. L., & Li, P. Y. (2014). Application of Hilbert - Huang Transform in Structural Health Monitoring: A State - of - the - Art Review, June 2014 Mathematical Problems in Engineering 2014(7):1 - 22 DOI: 10.1155/2014/317954 Chopra, A. K. (2014). Dynamics of structures, Theory and Applications to Earthquake Engineering. PRENTICE - HALL. Fourth edition Cohen, L. (1995). Time - frequency analysis (Vol. 778). New Jersey: Prentice hall. D. Noble, M. Nogal, A. O’Connor, V. Pakrashi, The effect of prestress force magnitude and eccentricity on the natural bending frequencies of uncracked prestressed concrete beams, J. Sound Vib. 365 (2016) 22–44. http://dx. doi.org/10.1016/j.jsv.2015.11.047. Dall'Asta, A. (2000). Dynamics of elastic bodies prestressed by internal slipping cables. International journal of solids and structures, 37(25), 3421 - 3438. Dall'Asta, A., & Leoni, G. (1999). Vibrations of beams prestressed by internal frictionless cables. Journal of sound and vibration, 222(1), 1 - 18. De Ceuster, G., Breemersch, T., Van Herbruggen, B., Verweij, K., Davydenko, I., Kligender, M., ... & Bereni, M. (2008). Effects of adapting the rules on weights and dimensions of heavy commercial vehicles as established within Directive 96/53/EC. Final report. Federal Highway Administration - HRT - 13 - 028: Guidelines for Sampling, Assessing, and Restoring Defective Grout in Prestressed Concrete Bridge Post - Tensioning Duts (2013) Huang, N. E., Shen, Z., Long, S. R., Wu, M. C., Shih, H. H., Zheng, Q., ... & Liu, H. H. (1998). The empirical mode decomposition and the Hilbert spectrum for nonlinear and non - stationary time series analysis. Proceedings of the Royal Society of London. Series A: mathematical, physical and engineering sciences, 454(1971), 903 - 995. Kerschen, G., Vakakis, A. F., Lee, Y. S., McFarland, D. M., & Bergman, L. A. (2008). Toward a fundamental understanding of the Hilbert - Huang transform in nonlinear structural dynamics. Journal of Vibration and Control, 14(1 - 2), 77 - 105. M. Saiidi, B. Douglas, S. Feng, Prestress Force Effect on Vibration Frequency of Concrete Bridges, J. Struct. Eng. 120 (1994) 2233–2241. http://dx. doi.org/10.1061/(ASCE)0733 - 9445(1994)120:7(2233). Ministero delle Infrastrutture e della Mobilità Sostenibili. DM 01/07/2022. Linee guida per la classificazione e gestione del rischio, la valutazione della sicurezza ed il monitoraggio dei ponti esistenti. (22A04700) (GU Serie Generale n.196 del 23 - 08 - 2022) (In Italian) Minnucci, L., Scozzese, F., Carbonari, S., Gara, F., & Dall’Asta, A. (2022). Innovative Fragility - Based Method for Failure Mechanisms and Damage Extension Analysis of Bridges. Infrastructures, 7(9), 122. Podolny W. (1992) Corrosion of prestressing steel and its mitigation. PCI Journal. Special report Poeta, A., Micozzi, F., Gioiella, L., & Dall'Asta, A. (2023). A case study for the reliability evaluation of an existing prestressed bridge according to current Standard. ce/papers, 6(5), 36 - 42. Scozzese, F., & Minnucci, L. (2023). Seismic Risk Analysis of Existing Link Slab Bridges Using Novel Fragility Functions. Applied Sciences , 14(1), 112 . Scozzese, F., Dall'Asta, A. (2024). Nonlinear response characterization of post - tensioned r.c. bridges through Hilbert - Huang Transform analysis. Structural Control and Health Monitoring. Timoshenko, S. P. (1922). CV. On the forced vibrations of bridges. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 43(257), 1018 - 1019. Wang L. (2023) Strand corrosion in prestressed concrete structures. Springer Nature Singapore Pte Ltd. DOI:10.1007/978 - 981 - 99 - 2054 - 9 Frýba, L. (1999). Vibration of solids and structures under moving loads. Thomas Telford. Highways England. CS 464 (2020) – Non - destructive testing on highways structures. Highways England. CS 465 (2020) – Management of Post - Tensioned Concrete Bridges. Huang, N. E. (2014). Hilbert - Huang transform and its applications (Vol. 16). World Scientific.