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From photonic crystals to seismic metamaterials: A review via phononic crystals and acoustic metamaterials
The advancement in electromagnetic metamaterials, which commenced three decades ago,
experienced a rapid transformation into acoustic and elastic systems in the forms of …
experienced a rapid transformation into acoustic and elastic systems in the forms of …
Non-contact electromagnetic controlled metamaterial beams for low-frequency vibration suppression
To address the challenge of suppressing extremely-low frequency vibration and noise in
precision instruments and equipment, a novel non-contact metamaterial beams is proposed …
precision instruments and equipment, a novel non-contact metamaterial beams is proposed …
Low-frequency and broadband vibration absorption of a metamaterial plate with acoustic black hole resonators
Acoustic metamaterials with bandgap properties can lead to effective vibration attenuation in
a targeted frequency range. In this paper, a novel locally resonant metamaterial plate is …
a targeted frequency range. In this paper, a novel locally resonant metamaterial plate is …
Periodic and aperiodic 3-D composite metastructures with ultrawide bandgap for vibration and noise control
Periodic composite structures as acoustic metamaterials have caught enormous research
interest for the inherent peculiar dynamics characteristics, effective medium properties, and …
interest for the inherent peculiar dynamics characteristics, effective medium properties, and …
Investigation on tunable low-frequency property of magnetic field induced phononic crystal with Archimedean spiral-beams
Phononic crystal is a type of periodic artificial structure in which the elastic waves can be
controlled. However, the immutable dynamic characteristics of fabricated phononic crystals …
controlled. However, the immutable dynamic characteristics of fabricated phononic crystals …
Three-dimensional ultra-wide elastic metamaterial with inertial amplification mechanisms having optimized flexure hinges
The aim of this paper is to obtain an ultra-wide low-frequency stop band in three dimensions
by using inertial amplification mechanisms. A two-stage remote center flexure mechanism …
by using inertial amplification mechanisms. A two-stage remote center flexure mechanism …
Low frequency topologically protected wave transport in sinusoidal lightweight acoustic metamaterials
Topological phononic crystals and acoustic metamaterials have attracted enormous
research attention in recent years due to the presence of robust and disorder-immune wave …
research attention in recent years due to the presence of robust and disorder-immune wave …
Design and fabrication of 3D-printed composite metastructure with subwavelength and ultrawide bandgaps
Architected composite metastructures can exhibit a subwavelength ultrawide bandgap (BG)
with prominent emerging applications in the structural vibration and noise control and …
with prominent emerging applications in the structural vibration and noise control and …
Vibrations of composite structures: Finite element and analytical investigation
In this examination, the free vibrations of complete composite shells with rectangular
openings based on first-order shear deformation theory have been studied. The equations …
openings based on first-order shear deformation theory have been studied. The equations …
Composite metastructure with tunable ultra-wide low-frequency three-dimensional band gaps for vibration and noise control
Low-frequency vibration and noise control present enduring engineering challenges that
garner extensive research attention. Despite numerous active and passive control solutions …
garner extensive research attention. Despite numerous active and passive control solutions …