Publications

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Journal Article
Bedon, C., and F. Amarante dos Santos. "FE Exploratory Investigation on the Performance of SMA-Reinforced Laminated Glass Panels." Advanced Engineering Materials. 18 (2016): 1478-1493. AbstractWebsite
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Santos, F. A., H. Rebelo, M. Coutinho, L. S. Sutherland, C. Cismasiu, I. Farina, and F. Fraternali. "Low velocity impact response of 3D printed structures formed by cellular metamaterials and stiffening plates: PLA vs. PETg." Composite Structures. 256 (2021). AbstractWebsite
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Fraternali, F., and F. Santos. "Mechanical modeling of superelastic tensegrity braces for earthquake-proof structures." Extreme Mechanics Letters. 33 (2019). AbstractWebsite
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Miranda, R., E. Babilio, N. Singh, F. Santos, and F. Fraternali. "Mechanics of smart origami sunscreens with energy harvesting ability." Mechanics Research Communications. 105 (2020). AbstractWebsite
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Amarante dos Santos, Filipe, and Fernando Fraternali. "Novel magnetic levitation systems for the vibration control of lightweight structures and artworks." Structural Control and Health Monitoring (2022). AbstractWebsite
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Cismaşiu, C., and F. P. Amarante dos Santos. "Numerical simulation of superelastic shape memory alloys subjected to dynamic loads." Smart Materials and Structures. 17.2 (2008). AbstractWebsite

Superelasticity, a unique property of shape memory alloys (SMAs), allows the material to recover after withstanding large deformations. This recovery takes place without any residual strains, while dissipating a considerable amount of energy. This property makes SMAs particularly suitable for applications in vibration control devices. Numerical models, calibrated with experimental laboratory tests from the literature, are used to investigate the dynamic response of three vibration control devices, built up of austenitic superelastic wires. The energy dissipation and re-centering capabilities, important features of these devices, are clearly illustrated by the numerical tests. Their sensitivity to ambient temperature and strain rate is also addressed. Finally, one of these devices is tested as a seismic passive vibration control system in a simplified numerical model of a railway viaduct, subjected to different ground accelerations.

Cismaiu, C., and F. P. A. Dos Santos. "Numerical simulation of superelastic shape memory alloys subjected to dynamic loads." Smart Materials and Structures. 17 (2008). AbstractWebsite
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Bedon, C., X. Zhang, F. Santos, D. Honfi, M. Kozłowski, M. Arrigoni, L. Figuli, and D. Lange. "Performance of structural glass facades under extreme loads – Design methods, existing research, current issues and trends." Construction and Building Materials. 163 (2018): 921-937. AbstractWebsite
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dos Santos, FA, and C. Bedon. "Preliminary experimental and finite-element numerical assessment of the structural performance of SMA-reinforced GFRP systems." American Journal of Engineering and Applied Sciences. 9 (2016): 692-701. AbstractWebsite
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Micheletti, A., FA dos Santos, and S. D. Guest. "Prestrain-induced bistability in the design of tensegrity units for mechanical metamaterials." Applied Physics Letters. 123 (2023). AbstractWebsite
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dos Santos, FA, A. Favata, A. Micheletti, R. Paroni, and M. Picchi Scardaoni. "Programming quadric metasurfaces via infinitesimal origami maps of monohedral hexagonal tessellations: Part i." Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 480 (2024). AbstractWebsite
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dos Santos, FA, A. Favata, A. Micheletti, R. Paroni, and M. P. Scardaoni. "Programming quadric metasurfaces via infinitesimal origami maps of monohedral hexagonal tessellations: Part II." Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 480 (2024). AbstractWebsite
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Amarante dos Santos, Filipe, Gianmario Benzoni, and Fernando Fraternali. "Seismic Performance of Superelastic Tensegrity Braces." Ingegneria Sismica - International Journal of Earthquake Engineering. vol. 3 (2019).
Santos, F., G. Benzoni, and F. Fraternali. "Seismic performance of superelastic tensegrity braces." Ingegneria Sismica. 36 (2019): 20-37. AbstractWebsite
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Cismaşiu, C., F. P. A. Santos, R. A. D. S. Perdigão, V. M. S. Bernardo, P. X. Candeias, A. R. Carvalho, and L. M. C. Guerreiro. "Seismic Vulnerability Assessment of a RC Pedestrian Crossing." Journal of Earthquake Engineering. 24 (2020): 727-744. AbstractWebsite
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Amarante dos Santos, F. P., C. Cismaşiu, and J. Pamies Teixeira. "Semi-active vibration control device based on superelastic NiTi wires." Structural Control and Health Monitoring. 20.6 (2013): 890-902. AbstractWebsite

The present paper presents a physical prototype that simulates the response of a single degree of freedom dynamic system, equipped with a novel semi-active vibration control device. This device comprises two superelastic NiTi elements working in phase opposition and aims to prevent deck unseating in simply supported bridges, during a seismic excitation. The special design of this device allows to avoid problems related to stress–relaxation phenomena and material degradation because of cyclic loading that have been observed in similar passive dissipation devices. The proposed design uses a strategy that permits the continuous adapting of the accumulated stress in the NiTi wires, on the basis of the response of the device to external excitations. Although unloaded, the NiTi elements remain strain/stress free, preventing stress–relaxation phenomena. With the occurrence of a dynamic excitation, a cumulative strain/stress process in the superelastic wires is initiated, enabling higher martensite transformation ratios and therefore increasing the damping capacities of the system while keeping the stresses in the wires inside a narrower superelastic window. The strain/stress accumulation in the superelastic wires is a direct result of the motion of the structure itself, with no need for external energy input.

Dos Santos, F. P. A., C. Cismaşiu, and J. Pamies Teixeira. "Semi-active vibration control device based on superelastic NiTi wires." Structural Control and Health Monitoring. 20 (2013): 890-902. AbstractWebsite
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Amarante dos Santos, Filipe. "Shape-memory alloys as macrostrain sensors." Structural Control and Health Monitoring (2016).
Amarante dos Santos, F. "Shape-memory alloys as macrostrain sensors." Structural Control and Health Monitoring. 24 (2017). AbstractWebsite
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dos Santos, FA, P. F. Gonçalves, C. Cismaşiu, and M. Gamboa-Marrufo. "Smart glass facade subjected to wind loadings." Proceedings of the Institution of Civil Engineers: Structures and Buildings. 167 (2014): 743-752. AbstractWebsite
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dos Santos, FA, C. Cismasiu, and C. Bedon. "Smart glazed cable façade subjected to a blast loading." Proceedings of the Institution of Civil Engineers: Structures and Buildings. 169 (2016): 223-232. AbstractWebsite
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Bedon, Chiara, Dániel Honfi, Klára V. Machalická, Martina Eliášová, Miroslav Vokáč, Marcin Kozłowski, Thomas Wüest, Filipe Amarante dos Santos, and Natalie Williams Portal. "Structural characterisation of adaptive facades in Europe - Part II: Validity of conventional experimental testing methods and key issues." Journal of Building Engineering. 25 (2019).
Bedon, C., D. Honfi, K. V. Machalická, M. Eliášová, M. Vokáč, M. Kozłowski, T. Wüest, F. Santos, and N. W. Portal. "Structural characterisation of adaptive facades in Europe - Part II: Validity of conventional experimental testing methods and key issues." Journal of Building Engineering. 25 (2019). AbstractWebsite
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Bedon, Chiara, Dániel Honfi, Klára V. Machalická, Martina Eliášová, Miroslav Vokáč, Marcin Kozłowski, Thomas Wüest, Filipe Amarante dos Santos, and Natalie Williams Portal. "Structural characterisation of adaptive facades in Europe – Part I: Insight on classification rules, performance metrics and design methods." Journal of Building Engineering. 25 (2019).