This paper describes the design optimization and fabrication of a hybrid composite material for the passive suppression of flexural vibrations in slender and light structures. The material is made from glass fiber/epoxy resin laminated, reinforced with two thin, fiber-laser patterned sheets of NiTiCu shape memory alloy (SMA). The thickness of the SMA layers and their pattern geometry have been optimized by the numerical calculation of the first natural frequency and of the structural damping of the hybrid composite. In addition to describing the thermo-mechanical characterization of the SMA alloy, selected as a reinforcement, the paper also describes the final dynamic characterization of four, beam-shaped prototypes using the material in question. © 2012 Elsevier Ltd.
Passive damping of slender and light structures
Bassani P;Biffi CA;
2013
Abstract
This paper describes the design optimization and fabrication of a hybrid composite material for the passive suppression of flexural vibrations in slender and light structures. The material is made from glass fiber/epoxy resin laminated, reinforced with two thin, fiber-laser patterned sheets of NiTiCu shape memory alloy (SMA). The thickness of the SMA layers and their pattern geometry have been optimized by the numerical calculation of the first natural frequency and of the structural damping of the hybrid composite. In addition to describing the thermo-mechanical characterization of the SMA alloy, selected as a reinforcement, the paper also describes the final dynamic characterization of four, beam-shaped prototypes using the material in question. © 2012 Elsevier Ltd.| File | Dimensione | Formato | |
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Descrizione: Passive damping of slender and light structures
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