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Bernardo, Vasco, André Oliveira, Filipe Amarante dos Santos, and Corneliu Cismasiu. "Vulnerabilidade e reforço sísmico de uma passagem superior pedonal pré-fabricada." 5as Jornadas Portuguesas de Engenharia de Estruturas. Lisboa, Portugal : LNEC, 2014.
Amarante dos Santos, Filipe, and Corneliu Cismasiu. "Vibration control in civil engineering using SMAs." Workshop on "Processing, Characterization and Applications of Shape Memory Alloys". Caparica: FCT-UNL, 2013.
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Reis, A. J., and F. P. Amarante dos Santos. "Uma obra de arte especial sobre a VCI no Porto: Faseamento Construtivo." Encontro Nacional de Betão Estrutural. Lisboa 2002.
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Amarante dos Santos, Filipe, and João Nunes. "Toward an adaptive vibration absorber using shape-memory alloys, for civil engineering applications ." Journal of Intelligent Material Systems and Structures (2017).
Santos, F. A. D., and J. Nunes. "Toward an adaptive vibration absorber using shape-memory alloys, for civil engineering applications." Journal of Intelligent Material Systems and Structures. 29 (2018): 729-740. AbstractWebsite
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Bedon, Chiara, and Filipe Amarante dos Santos. "Toward a Novel SMA-reinforced Laminated Glass Panel." Advanced Engineering Materials and Modeling. Wiley-Scrivener, 2016. pp.87-120.
Bedon, C., and FA dos Santos Toward a Novel SMA-reinforced laminated glass panel. Advanced Engineering Materials and Modeling., 2016. AbstractWebsite
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A. Santos, F. "Toward a Novel Energy-Dissipation Metamaterial with Tensegrity Architecture." Advanced Materials. 35 (2023). AbstractWebsite
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dos Santos, FA, A. Favata, A. Micheletti, R. Paroni, and M. P. Scardaoni. "Tiled Plates with One Degree of Freedom." Lecture Notes in Civil Engineering. 437 (2024): 693-698. AbstractWebsite
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Micheletti, A., FA dos Santos, and P. Sittner. "Superelastic tensegrities: matrix formulation and antagonistic actuation." Smart Materials and Structures . 27.10 (2018).
Micheletti, A., F. A. D. Santos, and P. Sittner. "Superelastic tensegrities: Matrix formulation and antagonistic actuation." Smart Materials and Structures. 27 (2018). AbstractWebsite
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Amarante dos Santos, F. P., and C. Cismaşiu. "Superelastic Bridge Hinge-Restrainers." 5th ECCOMAS Thematic Conference on Smart Structures ans Materials SMART'11. Saarbruken 2011.
Amarante dos Santos, F. P. Structural Control with Shape-Memory Alloys. Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa. Lisboa, 2011.
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).
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 I: Insight on classification rules, performance metrics and design methods." 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 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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Kozłowsk, Marcin, Chiara Bedon, Dániel Honfi, Sandra Jordão, Klára Machalická, and Filipe Santos. "Structural aspects of adaptive facades." Places and Technologies 2018-The 5th International Academic Conference on Places and Technologies. Pécs, Hungary 2018.
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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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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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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Cismasiu, Corneliu, and Filipe Amarante dos Santos. "Shape Memory Alloys in Structural Vibration Control. Research at UNIC/DEC/FCT/UNL." International Conference "Tradition and Innovation". 60 Years of Civil Engineering Higher Education in Transilvania. Cluj-Napoca, Romania: UTCN, 2013.
Amarante dos Santos, F. P., and C. Cismaşiu. "Shape memory alloys in structural vibration control." EVACES'07 - Experimental Vibration Analysis for Civil Engineering Structures. Porto 2007.
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.