The class of nonlinear metamaterials with tensegrity architecture is particularly interesting, since the mechanical behavior of such systems can be effectively adjusted by acting on internal and external prestress, as well as the usual controls of geometry, topology, and mechanical properties of the members. This work is focused on the development of 3D versions of the tensegrity braces (T-braces) recently proposed in the literature. The examined structures are aimed at forming novel seismic isolators, reinforcing seismic-resistant frames of steel and reinforced concrete buildings, as well as introducing the energy dissipation mechanisms of masonry walls, floor slabs, and junctions between seismic-resistant structures. This technology consi...