In recent years, the nonlinear response of tensegrity systems has attracted increasing attention in the study of mechanical metamaterials. It has been shown in the literature that geometry and prestress of an elastic tensegrity structure can be designed to obtain different behaviors: stiffening, softening, and snap-through behavior in statics; propagation of solitary waves in dynamics. However, the realization of tensegrity systems is challenging, because of their prestressed state and the presence of tension-only cable members. A design method for periodic lattices with null prestress and no cables is here proposed, in which the repeating unit is at, or close to, a tensegrity configuration, maintaining the nonlinear types of response aforementioned. These structures can be realized by conventional additive manufacturing techniques, while the static and dynamic response can be predicted by means of stick-and-spring models.
Micheletti, A., Intrigila, C., Nodargi, N., Artioli, E., Fraternali, F., Bisegna, P. (2021). Modeling And Design Of Periodic Lattices With Tensegrity Architecture And Highly Nonlinear Response. In COMPDYN Proceedings: 28-30 June 2021, Streamed from Athens, Greece 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (pp.1848-1855). Athens : Eccomas Proceedia [10.7712/120121.8605.19232].
Modeling And Design Of Periodic Lattices With Tensegrity Architecture And Highly Nonlinear Response
Micheletti, Andrea;Nodargi, Nicola;Artioli, Edoardo;Bisegna, Paolo
2021-01-01
Abstract
In recent years, the nonlinear response of tensegrity systems has attracted increasing attention in the study of mechanical metamaterials. It has been shown in the literature that geometry and prestress of an elastic tensegrity structure can be designed to obtain different behaviors: stiffening, softening, and snap-through behavior in statics; propagation of solitary waves in dynamics. However, the realization of tensegrity systems is challenging, because of their prestressed state and the presence of tension-only cable members. A design method for periodic lattices with null prestress and no cables is here proposed, in which the repeating unit is at, or close to, a tensegrity configuration, maintaining the nonlinear types of response aforementioned. These structures can be realized by conventional additive manufacturing techniques, while the static and dynamic response can be predicted by means of stick-and-spring models.| File | Dimensione | Formato | |
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