Structural vibration induced by low frequency elastic waves presents a great threat to infrastructure such as buildings, bridges, and nuclear structures. In order to reduce the damage of low frequency structural vibration, researchers proposed the structure of seismic metamaterial, which can be used to block the propagation of low frequency elastic wave by adjusting the frequency range of elastic wave propagation. In this study, based on the concept of phononic crystal, a ternary seismic metamaterial is proposed to attenuate low frequency vibration by generating band gaps. The proposed metamaterial structure is periodically arranged by cube units, which consist of rubber coating, steel scatter, and soft matrix (like soil). The finite elemen...
Acoustic metamaterials (phononic crystals) have received much recent attention. Over time, several e...
Phononic crystals and metamaterials constitute a broad class of artificially engineered materials ab...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...
Architected materials that control elastic wave propagation are essential in vibration mitigation an...
Composite materials with engineered band gaps are promising solutions for wave control and vibration...
To prevent the severe effects of earthquake on built systems, structural engineering pursues attenua...
Engineering the architecture of materials is a new and very promising approach to obtain vibration i...
Fluid-filled tanks in tank farms of industrial plants can experience severe damage and trigger casca...
Vibrations are undesirable and cause many problems in engineering. Among the many techniques to redu...
Phononic crystals, artificial materials constituted by a periodical repetition of elements, can inhi...
The modern construction revolution throughout the past two decades has brought the need for ground v...
Elastic metamaterials (EMMs) have been widely studied owing to their advantages in controlling the p...
Elastic metamaterials have promising applications in wave control and vibration isolation, due to th...
The low-frequency wide-bandgap characteristics of the seismic metamaterial can suppress the propagat...
This paper discusses an elastic metamaterial for filtering energy from certain frequencies of an inc...
Acoustic metamaterials (phononic crystals) have received much recent attention. Over time, several e...
Phononic crystals and metamaterials constitute a broad class of artificially engineered materials ab...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...
Architected materials that control elastic wave propagation are essential in vibration mitigation an...
Composite materials with engineered band gaps are promising solutions for wave control and vibration...
To prevent the severe effects of earthquake on built systems, structural engineering pursues attenua...
Engineering the architecture of materials is a new and very promising approach to obtain vibration i...
Fluid-filled tanks in tank farms of industrial plants can experience severe damage and trigger casca...
Vibrations are undesirable and cause many problems in engineering. Among the many techniques to redu...
Phononic crystals, artificial materials constituted by a periodical repetition of elements, can inhi...
The modern construction revolution throughout the past two decades has brought the need for ground v...
Elastic metamaterials (EMMs) have been widely studied owing to their advantages in controlling the p...
Elastic metamaterials have promising applications in wave control and vibration isolation, due to th...
The low-frequency wide-bandgap characteristics of the seismic metamaterial can suppress the propagat...
This paper discusses an elastic metamaterial for filtering energy from certain frequencies of an inc...
Acoustic metamaterials (phononic crystals) have received much recent attention. Over time, several e...
Phononic crystals and metamaterials constitute a broad class of artificially engineered materials ab...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...