Shape memory alloys (SMAs) have great potential for use in the field of civil engineering. The authors of this paper have been involved, from 1996, in several experimental and theoretical studies of the application of SMAs in civil engineering, for national and international research projects. This paper provides an overview of the main results achieved, consisting of the conceptual design, implementation, and testing of three families of SMA-based devices, namely: (i) special braces for framed structures, (ii) seismic isolation devices for buildings and bridges, and (iii) smart ties for arches and vaults. The main advantage of using SMA-based devices in the seismic protection of structures comes from the double-flag shape of their hysteresis loops, which implies three favorable features, i.e., self-centering capability, good energy dissipation capability, and high stiffness at small displacements. The main advantage of smart ties comes from the thermal behavior of SMA superelastic wires, which is opposite to that of steel rod. This implies a strong reduction of the force changes caused by variations of air temperature.
Theoretical and Experimental Studies for the Application of Shape Memory Alloys in Civil Engineering
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Dolce, M., and Cardone, D. (January 25, 2006). "Theoretical and Experimental Studies for the Application of Shape Memory Alloys in Civil Engineering." ASME. J. Eng. Mater. Technol. July 2006; 128(3): 302–311. https://doi.org/10.1115/1.2203106
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