Add to ORKGThe combined characteristics of periodicity and locally resonant features in metamaterial structures, or meta-structures, give rise to unique wave propagation characteristics such as relatively low and wide band gaps. These meta-structures have a fixed geometry and thus a fixed behavior, however applications that require structural vibration mitigation such as spacecraft and automotive components have variable vibration mitigation requirements over a range of operation and external conditions. In this work, we propose a method to thermally tune the band gaps of composite meta-structures, which combine a periodic lattice and locally-resonant inclusions, through changes in temperature of the structure. The concept primarily takes advantage of...
Periodic media and resonant, acoustic/elastic metamaterials possess extraordinary frequency band gap...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...
In this manuscript we experimentally study a modular metamaterial that is able to provide mechanical...
The combined characteristics of periodicity and locally resonant features in metamaterial structures...
Continuous demand for improvement of material performance in structural applications pushes the need...
Architected materials that control elastic wave propagation are essential in vibration mitigation an...
The elastic wave propagation is investigated in a beam lattice material characterized by a square pe...
This work is aimed at theoretically and numerically investigating the presence of frequency band gap...
Continuous demand for improvement of material performance in structural applications pushes the need...
Composite materials with engineered band gaps are promising solutions for wave control and vibration...
Elastic metamaterials made of locally resonant arrays have been developed as effective ways to creat...
In this study, the numerical investigation of thermal effect on band gap dynamical characteristic fo...
Various strategies have been proposed in recent years in the field of mechanical metamaterials to wi...
The dispersive wave propagation in a periodic metamaterial with tetrachiral topology and inertial lo...
To achieve wave control at broad-band ultra-low frequencies, we design »accordion-like» meta-structu...
Periodic media and resonant, acoustic/elastic metamaterials possess extraordinary frequency band gap...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...
In this manuscript we experimentally study a modular metamaterial that is able to provide mechanical...
The combined characteristics of periodicity and locally resonant features in metamaterial structures...
Continuous demand for improvement of material performance in structural applications pushes the need...
Architected materials that control elastic wave propagation are essential in vibration mitigation an...
The elastic wave propagation is investigated in a beam lattice material characterized by a square pe...
This work is aimed at theoretically and numerically investigating the presence of frequency band gap...
Continuous demand for improvement of material performance in structural applications pushes the need...
Composite materials with engineered band gaps are promising solutions for wave control and vibration...
Elastic metamaterials made of locally resonant arrays have been developed as effective ways to creat...
In this study, the numerical investigation of thermal effect on band gap dynamical characteristic fo...
Various strategies have been proposed in recent years in the field of mechanical metamaterials to wi...
The dispersive wave propagation in a periodic metamaterial with tetrachiral topology and inertial lo...
To achieve wave control at broad-band ultra-low frequencies, we design »accordion-like» meta-structu...
Periodic media and resonant, acoustic/elastic metamaterials possess extraordinary frequency band gap...
Architected material used to control elastic wave propagation has thus far relied on two mechanisms ...
In this manuscript we experimentally study a modular metamaterial that is able to provide mechanical...