This Letter introduces a seismic metamaterial (SM) composed by a chain of mass-in-mass system able to filter the S-waves of an earthquake. We included the effect of the SM into the mono dimensional model for the soil response analysis. The SM modifies the soil behavior and in presence of an internal damping the amplitude of the soil amplification function is reduced also in a region near the resonance frequency. This SM can be realized by a continuous structure with inside a 3d-matrix of isochronous oscillators based on a sphere rolling over a cycloidal trajectory.Published1919037SR AMBIENTE – Servizi e ricerca per la societàJCR Journa
none3noArtificial soils engineered with periodic or resonant structures, also referred as “seismic m...
International audienceDiverting and controlling the impact of elastic vibrations upon an infrastruct...
A high-fidelity, 3D finite element model consisting of a realistic, nonlinear code-conforming reinfo...
The paper explores the key mechanisms that govern the dynamic interaction between resonant metamater...
Seismic surface waves and Rayleigh waves, in particular, are usually responsible for the failure of...
The low-frequency wide-bandgap characteristics of the seismic metamaterial can suppress the propagat...
Metamaterials can be engineered to interact with waves in entirely new ways, finding application on ...
International audienceWe propose that wave propagation through a class of mechanical metamaterials o...
International audienceMaterials engineered at the micro- and nanometer scales have had a tremendous ...
Microstructured materials, namely metamaterials, are one of the most relevant topics of the recent p...
Phononic crystals and metamaterials constitute a broad class of artificially engineered materials ab...
The article analyses two potential metamaterial designs, the metafoundation and the metabarrier, cap...
Metamaterials have been successfully used during the past decade in the field of electromagnetism to...
In this presentation, we show recent results obtained by our research group on two types of elastic ...
Periodic or quasi-periodic arrangements of artificial structures can be used to design a class of ma...
none3noArtificial soils engineered with periodic or resonant structures, also referred as “seismic m...
International audienceDiverting and controlling the impact of elastic vibrations upon an infrastruct...
A high-fidelity, 3D finite element model consisting of a realistic, nonlinear code-conforming reinfo...
The paper explores the key mechanisms that govern the dynamic interaction between resonant metamater...
Seismic surface waves and Rayleigh waves, in particular, are usually responsible for the failure of...
The low-frequency wide-bandgap characteristics of the seismic metamaterial can suppress the propagat...
Metamaterials can be engineered to interact with waves in entirely new ways, finding application on ...
International audienceWe propose that wave propagation through a class of mechanical metamaterials o...
International audienceMaterials engineered at the micro- and nanometer scales have had a tremendous ...
Microstructured materials, namely metamaterials, are one of the most relevant topics of the recent p...
Phononic crystals and metamaterials constitute a broad class of artificially engineered materials ab...
The article analyses two potential metamaterial designs, the metafoundation and the metabarrier, cap...
Metamaterials have been successfully used during the past decade in the field of electromagnetism to...
In this presentation, we show recent results obtained by our research group on two types of elastic ...
Periodic or quasi-periodic arrangements of artificial structures can be used to design a class of ma...
none3noArtificial soils engineered with periodic or resonant structures, also referred as “seismic m...
International audienceDiverting and controlling the impact of elastic vibrations upon an infrastruct...
A high-fidelity, 3D finite element model consisting of a realistic, nonlinear code-conforming reinfo...