A brief review of metamaterials for opening low-frequency band gaps

Article Acoustics

Vibration bandgap of a locally resonant beam considering horizontal springs

Huihuang Bao et al.

Summary: The study proposes a locally resonant metamaterial beam to reduce low-frequency vibrations, and enhancing vibration suppression performance by increasing the number of units, damping ratio, mass, and stiffness.

JOURNAL OF VIBRATION AND CONTROL (2022)

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Article Acoustics

Vibration properties and optimized design of a nonlinear acoustic metamaterial beam

Peng Sheng et al.

Summary: This paper explores the manipulation laws and optimized design of the nonlinear acoustic metamaterial (NAM) beam, systematically studying the factors influencing vibration reduction properties and presenting an optimized lightweight NAM beam for low-frequency, broadband and highly efficient vibration reduction. The results could support future research, creation, and application of NAMs.

JOURNAL OF SOUND AND VIBRATION (2021)

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Article Mathematics, Applied

Multi-resonator coupled metamaterials for broadband vibration suppression

Pengcheng Zhao et al.

Summary: In this study, multi-resonator coupled metamaterials (MRCMs) with local resonators were proposed to obtain multiple and wide band gaps. By analyzing the effects of structural parameters on the distributions of the band gaps, it was verified that MRCMs have superior vibration suppression capability.

APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION (2021)

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Article Acoustics

Ultra-wide low-frequency band gap in a tapered phononic beam

Seongmin Park et al.

Summary: Researchers proposed a tapered phononic beam with a unit cell consisting of two identical uniform parts and a thickness- and width-varying part. By controlling the geometrical parameters, the phononic beam achieved an ultra-broad and ultra-low frequency band gap from 3.6 Hz to 237.9 Hz.

JOURNAL OF SOUND AND VIBRATION (2021)

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Review Materials Science, Multidisciplinary

A brief review of dynamic mechanical metamaterials for mechanical energy manipulation

Lingling Wu et al.

Summary: This paper summarizes the research on mechanical metamaterials in the past decades, focusing on the characteristics of dynamic mechanical metamaterials and their applications in acoustics and elasticity. By reviewing and categorizing some representative works, a better understanding of how mechanical metamaterials manipulate the interactions between matters and mechanical energy is achieved.

MATERIALS TODAY (2021)

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Article Mechanics

A nonlinear hybrid energy harvester with high ultralow-frequency energy harvesting performance

Kai Wang et al.

Summary: This paper presents a nonlinear hybrid energy harvester that collects mechanical energy from ultralow frequency ambient vibrations through an electromagnetic generator and a triboelectric generator, combined with a quasi-zero-stiffness mechanism to enhance energy harvesting performance. The impact of mechanical conditions on energy harvesting efficiency is analyzed, along with the dynamics responses of the nonlinear energy harvester influenced by systematic parameters. This work provides guidance for improving TEG ultralow frequency ambient vibration energy harvesting performance through nonlinearity.

MECCANICA (2021)

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Article Engineering, Mechanical

Metamaterial beam with graded local resonators for broadband vibration suppression

Guobiao Hu et al.

Summary: This paper investigates a technique for broadband vibration suppression using a graded metamaterial beam, proposes a design strategy and defines three figures of merit to evaluate its performance. A parametric study reveals the effects of frequency spacing and damping ratio on the vibration suppression performance, and shows that by tuning these parameters, a significant increase in attenuation bandwidth can be achieved.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2021)

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Article Materials Science, Multidisciplinary

Numerical and Experimental Investigations on Tunable Low-frequency Locally Resonant Metamaterials

Qida Lin et al.

Summary: This study proposes a tunable locally resonant metamaterial for low-frequency band gaps, designed with a local resonator and optimized geometric parameters. The transmittance of longitudinal waves is studied through numerical predictions, finite element simulations, and experimental tests. With an increase in pre-compression, the band gap shifts to lower frequencies and decreases in depth and width.

ACTA MECHANICA SOLIDA SINICA (2021)

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Article Acoustics

Bidirectional deep-subwavelength band gap induced by negative stiffness

Kai Wang et al.

Summary: This study introduces a novel negative-stiffness mechanism into a resonator to open a bidirectional deep-subwavelength band gap, allowing control of both translational and torsional stiffness of the resonator. By adjusting the parameters of the negative-stiffness mechanism, a convenient way to tune the bidirectional stiffness characteristic of the resonator is provided, beneficial for manipulating elastic waves in a large frequency range.

JOURNAL OF SOUND AND VIBRATION (2021)

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Review Engineering, Mechanical

Vibration control based metamaterials and origami structures: A state-of-the-art review

J. C. Ji et al.

Summary: Vibration and sound control are crucial for practical engineering systems, and metamaterials and origami-based structures offer promising applications due to their unique physical properties. Metamaterials exhibit extremal properties not found in conventional materials, with recent advances in auxetic, band gap, and pentamode metamaterials for vibration and sound mitigations. Origami, as an ancient Japanese art, has become a new design paradigm with its multi-stable states and desirable stiffness characteristics for vibration control.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2021)

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Article Physics, Applied

An enhanced dual-resonator metamaterial beam for low-frequency vibration suppression

Huihuang Bao et al.

Summary: This paper presents an enhanced dual-resonator metamaterial beam (DRMB) that can suppress structural vibrations across a wide frequency band. The study shows that by adjusting the number of cells, mass ratio, and spring stiffness ratio, significant changes can be made to the bandgap and transmissibility performance of the material.

JOURNAL OF APPLIED PHYSICS (2021)

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Article Acoustics

A novel lever-type vibration isolator with eddy current damping

Bo Yan et al.

Summary: This study proposes a lever-type vibration isolator with eddy current damping, which can broaden the isolation band by adjusting the lever ratio and improve the vibration suppression performance. The effects of lever ratio, tip mass, material properties, geometric parameters, and excitation amplitude on vibration isolation performance are analyzed. ECD can further enhance vibration suppression in the resonance region, while transmissibility tends to stabilize in the isolation region with increasing lever ratio.

JOURNAL OF SOUND AND VIBRATION (2021)

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Article Physics, Multidisciplinary

Adjustable low-frequency bandgap of flexural wave in an Euler-Bernoulli meta-beam with inertial amplified resonators

Shuai Wang et al.

Summary: A novel Meta-beam structure was designed to suppress the propagation of low-frequency flexural waves by using periodically attached inertial amplified resonators, with an adjustable low-frequency bandgap achieved through dynamic lever design. Simulation results showed that the frequency bandgap of the Meta-beam with inertial amplified resonators is lower and wider than traditional structures, with easy adjustability.

PHYSICS LETTERS A (2021)

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Article Geosciences, Multidisciplinary

Seismic metamaterials for low-frequency mechanical wave attenuation

Selcuk Kacin et al.

Summary: In this study, a triangular array of cylindrical holes was found to act as a local resonator in seismic metamaterials, resisting vibration generator loading in the geophysics concept. Numerical and experimental analyses showed that optimal dimensions and arrangements at a sub-wavelength scale could achieve maximum attenuation against incoming seismic waves at very low frequencies.

NATURAL HAZARDS (2021)

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Article Multidisciplinary Sciences

Digital logic gates in soft, conductive mechanical metamaterials

Charles El Helou et al.

Summary: The study introduces a method of leveraging conductive polymer-based mechanical metamaterials to realize various digital logic gates and gate assemblies, providing an important approach for decision-making in soft, conductive materials.

NATURE COMMUNICATIONS (2021)

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Article Acoustics

Ultralow-frequency band gap in a quasi-zero-stiffness multi-resonator periodic hybrid structure

Buliang Xie et al.

Summary: A multi-resonator periodic hybrid structure with an ultralow-frequency band gap is proposed, where the band gaps can be flexibly shifted to lower frequency thanks to the introduction of quasi-zero-stiffness (QZS) mechanical systems. The structure exhibits negative stiffness and negative mass properties in certain frequency ranges, and demonstrates the ability to suppress the propagation of ultralow-frequency elastic waves effectively.

WAVE MOTION (2021)

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Article Engineering, Mechanical

Hybrid multi-resonators elastic metamaterials for broad low-frequency bandgaps

Yingli Li et al.

Summary: This paper proposes elastic metamaterials with multi-degree-of-freedom hybrid resonators to achieve lower and wider bandgaps for vibration attenuation. It analyzes the central frequencies expressions of the bandgaps and explores the bandgap forming mechanism using dispersion curves and relative movement of masses. The proposed models show lower central frequencies or significantly widened bandgap widths compared to classical models.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2021)

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Article Acoustics

Sound transmission of acoustic metamaterial beams with periodic inertial amplification mechanisms

Yongzhen Mi et al.

Summary: This paper introduces a new type of acoustic metamaterial with improved sound insulation performance by attaching periodic inertial amplification mechanisms to a host beam. The enhancement in low-frequency soundproof capacity is significant, but there is also an undesired sound insulation valley observed at higher frequencies.

JOURNAL OF SOUND AND VIBRATION (2021)

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Article Engineering, Mechanical

A dual quasi-zero-stiffness sliding-mode triboelectric nanogenerator for harvesting ultralow-low frequency vibration energy

Kai Wang et al.

Summary: This paper introduces a novel QZS-TENG by combining a quasi-zero-stiffness mechanism and a triboelectric nanogenerator. The QZS system with a negative stiffness mechanism achieves ultra-low stiffness in a larger displacement region, leading to excellent energy harvesting performance in the ultra-low frequency region. The study provides a new application of a QZS mechanism for harvesting ultralow-frequency vibration energy by integrating with a TENG.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2021)

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Review Nanoscience & Nanotechnology

Thermoelectric Metamaterials: Nano-Waveguides for Thermoelectric Energy Conversion and Heat Management at the Nanoscale

Xanthippi Zianni

Summary: The use of metamaterials for thermoelectrics was proposed a decade ago, showing enhanced thermoelectric effects and decreased thermal conduction due to quantum interference and geometrically induced fluctuations. Electron and phonon transport properties of thermoelectric metamaterials in the quantum confinement regime are explored, demonstrating potential for high thermoelectric efficiency. Geometric modulation of electron and phonon properties provides strategies for designing materials with controlled heat conduction and enhanced thermoelectric properties.

ADVANCED ELECTRONIC MATERIALS (2021)

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Article Engineering, Mechanical

Ultralow-frequency tunable acoustic metamaterials through tuning gauge pressure and gas temperature

Shaowu Ning et al.

Summary: This paper presents a tunable acoustic metamaterial consisting of a frame structure, airbag, and balancing weight, with the dynamic characteristics manipulated by tuning gauge pressure and gas temperature in the airbag. The design effectively suppresses wave propagation and vibration in the ultralow-frequency band gap. Formation of out-of-plane and in-plane band gaps is attributed to coupling between different resonant modes, and the manipulation mechanism stems from tuning structural stiffness. The tunability of these acoustic metamaterials can provide active control of low-frequency vibration and noise, offering guidelines for designing other materials for similar purposes.

EXTREME MECHANICS LETTERS (2021)

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Article Chemistry, Multidisciplinary

Tailored Mechanical Metamaterials with Programmable Quasi-Zero-Stiffness Features for Full-Band Vibration Isolation

Quan Zhang et al.

Summary: A new design strategy for a programmable quasi-zero-stiffness (QZS) mechanical metamaterial is proposed in this research, which can achieve tailored stair-stepping force-displacement curves with multiple QZS working ranges and ultra-low frequency vibration isolation capability. The mechanism solely depends on the structural geometry of curved beams and is materials-independent, opening up a new avenue for innovating compact and scalable QZS isolators.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Physics, Applied

Structural designs, principles, and applications of thin-walled membrane and plate-type acoustic/elastic metamaterials

Fuyin Ma et al.

Summary: Using well-designed acoustic metamaterial structures can achieve many advanced physical properties, with thin-walled structures attracting attention from researchers and engineers in various specialized fields. This tutorial systematically introduced the structural design methods, acoustic/elastic wave attenuation and regulation principles, and engineering applications of thin-walled acoustic metamaterials.

JOURNAL OF APPLIED PHYSICS (2021)

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Article Acoustics

Bandgap characteristics and wave attenuation of metamaterials based on negative-stiffness dynamic vibration absorbers

Siqi Lin et al.

Summary: In this study, a metamaterial composed of dynamic vibration absorbers with negative stiffness was proposed, exhibiting stability and negative effective stiffness. Parametric studies and transmission analysis validated its wave attenuation capability, making it suitable for seismic isolation in urban areas.

JOURNAL OF SOUND AND VIBRATION (2021)

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Article Engineering, Mechanical

Tunable ultralow frequency wave attenuations in one-dimensional quasi-zero-stiffness metamaterial

Jiaxi Zhou et al.

Summary: This study designed a one-dimensional metamaterial for attenuating ultra-low frequency waves, achieving quasi-zero stiffness through optimized configuration with adjustable band gap structure. Results show that band gap can be tuned by changing pre-compression, enabling attenuation of ultra-low frequency waves.

INTERNATIONAL JOURNAL OF MECHANICS AND MATERIALS IN DESIGN (2021)

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Article Acoustics

Flexural vibration bandgaps of the multiple local resonance elastic metamaterial plates with irregular resonators

Kuan Lu et al.

APPLIED ACOUSTICS (2020)

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Article Mathematics, Applied

Merging phononic crystals and acoustic black holes

Xiaofei Lyu et al.

APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION (2020)

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Article Mechanics

Design and numerical validation of quasi-zero-stiffness metamaterials for very low-frequency band gaps

Changqi Cai et al.

COMPOSITE STRUCTURES (2020)

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Article Engineering, Mechanical

Enhanced band-gap properties of an acoustic metamaterial beam with periodically variable cross-sections

Shurui Wen et al.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2020)

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Article Materials Science, Multidisciplinary

Tunable metamaterial beam using negative capacitor for local resonators coupling

Guobiao Hu et al.

JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES (2020)

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Article Physics, Applied

Elastic metamaterial shaft with a stack-like resonator for low-frequency vibration isolation

Lei Fan et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2020)

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Article Engineering, Mechanical

Impaired sound radiation in plates with periodic tunneled Acoustic Black Holes

Liling Tang et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2020)

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Article Engineering, Mechanical

A bistable vibration isolator with nonlinear electromagnetic shunt damping

Bo Yan et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2020)

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Article Instruments & Instrumentation

Programmable metamaterials with digital synthetic impedance circuits for vibration control

Kaijun Yi et al.

SMART MATERIALS AND STRUCTURES (2020)

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Article Engineering, Mechanical

Low-frequency tunable locally resonant band gaps in acoustic metamaterials through large deformation

Shaowu Ning et al.

EXTREME MECHANICS LETTERS (2020)

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Article Mechanics

Numerical and experimental study of a sandwich-like metamaterial plate for vibration suppression

Jinqiang Li (Jinqiang) et al.

COMPOSITE STRUCTURES (2020)

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Article Physics, Applied

Experimental Observation of Nonreciprocal Waves in a Resonant Metamaterial Beam

M. A. Attarzadeh et al.

PHYSICAL REVIEW APPLIED (2020)

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Article Mechanics

Enhancement of Deep-Subwavelength Band Gaps in Flat Spiral-Based Phononic Metamaterials Using the Trampoline Phenomena

Osama R. Bilal et al.

JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME (2020)

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Article Engineering, Electrical & Electronic

Bandgap analysis of a tunable elastic-metamaterial-based vibration absorber with electromagnetic stiffness

Junsun Yoo et al.

MICROSYSTEM TECHNOLOGIES-MICRO-AND NANOSYSTEMS-INFORMATION STORAGE AND PROCESSING SYSTEMS (2020)

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Article Engineering, Mechanical

Prestress-controlled asymmetric wave propagation and reciprocity-breaking in tensegrity metastructure

Yitian Wang et al.

EXTREME MECHANICS LETTERS (2020)

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Article Mechanics

Active tunability of band gaps for a novel elastic metamaterial plate

Tao Ren et al.

ACTA MECHANICA (2020)

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Article Physics, Multidisciplinary

A new periodic structure composite material with quasi-phononic crystals

Linchang Miao et al.

PHYSICS LETTERS A (2020)

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Article Engineering, Mechanical

A semi-active metamaterial beam with electromagnetic quasi-zero-stiffness resonators for ultralow-frequency band gap tuning

Kai Wang et al.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2020)

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Article Physics, Applied

Bandgap merging and widening of elastic metamaterial with heterogeneous resonator

Yingli Li et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2020)

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Article Engineering, Mechanical

A nonlinear ultra-low-frequency vibration isolator with dual quasi-zero-stiffness mechanism

Kai Wang et al.

NONLINEAR DYNAMICS (2020)

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Article Engineering, Mechanical

Increase of quasi-zero stiffness region using two pairs of oblique springs

Feng Zhao et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2020)

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Article Physics, Applied

Bridging-Coupling Phenomenon in Linear Elastic Metamaterials by Exploiting Locally Resonant Metachain Isomers

Danilo Beli et al.

PHYSICAL REVIEW APPLIED (2020)

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Article Materials Science, Multidisciplinary

Mechanical metamaterials for full-band mechanical wave shielding

Lingling Wu et al.

APPLIED MATERIALS TODAY (2020)

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Article Acoustics

New mechanism of tunable broadband in local resonance structures

Yong Yan Zhang et al.

APPLIED ACOUSTICS (2020)

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Article Engineering, Mechanical

Real-time tunable negative stiffness mechanical metamaterial

Xiaojun Tan et al.

EXTREME MECHANICS LETTERS (2020)

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Article Materials Science, Multidisciplinary

Ultrabroad acoustical limiting in nonlinear metamaterials due to adaptive-broadening band-gap effect

Xin Fang et al.

PHYSICAL REVIEW B (2020)

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Article Physics, Applied

A bandgap switchable elastic metamaterial using shape memory alloys

Kuo-Chih Chuang et al.

JOURNAL OF APPLIED PHYSICS (2019)

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Article Engineering, Mechanical

A nonlinear resonator with inertial amplification for very low-frequency flexural wave attenuations in beams

Jiaxi Zhou et al.

NONLINEAR DYNAMICS (2019)

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Article Physics, Applied

Negative-Stiffness Inclusions as a Platform for Real-Time Tunable Phononic Metamaterials

L. Salari-Sharif et al.

PHYSICAL REVIEW APPLIED (2019)

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Article Mechanics

Metamaterial With Local Resonators Coupled by Negative Stiffness Springs for Enhanced Vibration Suppression

Guobiao Hu et al.

JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME (2019)

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Article Physics, Multidisciplinary

Designing a broad locally-resonant bandgap in a phononic crystals

Suobin Li et al.

PHYSICS LETTERS A (2019)

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Article Physics, Applied

Low-frequency band gaps in a metamaterial rod by negative-stiffness mechanisms: Design and experimental validation

Kai Wang et al.

APPLIED PHYSICS LETTERS (2019)

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Article Physics, Applied

Elastic wave propagation in the elastic metamaterials containing parallel multi-resonators

Yongjun Tian et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2019)

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Article Engineering, Mechanical

Lower band gaps of longitudinal wave in a one-dimensional periodic rod by exploiting geometrical nonlinearity

Kai Wang et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2019)

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Article Mechanics

Low-frequency multi-mode vibration suppression of a metastructure beam with two-stage high-static-low-dynamic stiffness oscillators

Qichen Wu et al.

ACTA MECHANICA (2019)

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Article Mechanics

Actively controllable flexural wave band gaps in beam-type acoustic metamaterials with shunted piezoelectric patches

Weijian Zhou et al.

EUROPEAN JOURNAL OF MECHANICS A-SOLIDS (2019)

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Article Physics, Multidisciplinary

Elastic waves propagation in thin plate metamaterials and evidence of low frequency pseudo and local resonance bandgaps

Muhammad et al.

PHYSICS LETTERS A (2019)

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Article Physics, Applied

Active Acoustic Resonators with Reconfigurable Resonance Frequency, Absorption, and Bandwidth

Theodoros T. Koutserimpas et al.

PHYSICAL REVIEW APPLIED (2019)

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Article Physics, Applied

Tuning method of phononic band gaps of locally resonant pentamode metamaterials

Chengxin Cai et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2019)

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Article Physics, Applied

Tunable low-frequency torsional-wave band gaps in a meta-shaft

Kai Wang et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2019)

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Article Physics, Applied

Low-frequency vibration suppression of a multi-layered elastic metamaterial shaft with discretized scatters

Lixia Li et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2019)

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Article Engineering, Mechanical

A nonlinear dissipative elastic metamaterial for broadband wave mitigation

Xianchen Xu et al.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2019)

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Article Engineering, Mechanical

Nonlinear vibration of a slightly curved beam with quasi-zero-stiffness isolators

Hu Ding et al.

NONLINEAR DYNAMICS (2019)

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Article Engineering, Mechanical

Band-gap property of a novel elastic metamaterial beam with X-shaped local resonators

Zhijing Wu et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2019)

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Article Engineering, Multidisciplinary

Tuning bandgaps in metastructured beams: numerical and experimental study

Yi Yuan et al.

JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE A (2019)

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Article Engineering, Mechanical

A 6-DOF passive vibration isolator based on Stewart structure with X-shaped legs

Feizhou Hu et al.

NONLINEAR DYNAMICS (2018)

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Article Physics, Applied

Tunable fluid-solid metamaterials for manipulation of elastic wave propagation in broad frequency range

Quan Zhang et al.

APPLIED PHYSICS LETTERS (2018)

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Article Mechanics

Band-Gap Properties of Elastic Metamaterials With Inerter-Based Dynamic Vibration Absorbers

Xiang Fang et al.

JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME (2018)

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Article Physics, Applied

Internally coupled metamaterial beam for simultaneous vibration suppression and low frequency energy harvesting

Guobiao Hu et al.

JOURNAL OF APPLIED PHYSICS (2018)

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Article Acoustics

Tunable bandgaps in a deployable metamaterial

Aditya Nanda et al.

JOURNAL OF SOUND AND VIBRATION (2018)

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Article Automation & Control Systems

Design and Analysis of Piezoelectric Metamaterial Beams With Synthetic Impedance Shunt Circuits

Christopher Sugino et al.

IEEE-ASME TRANSACTIONS ON MECHATRONICS (2018)

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Article Physics, Multidisciplinary

Zero-frequency Bragg gap by spin-harnessed metamaterial

Joo Hwan Oh et al.

NEW JOURNAL OF PHYSICS (2018)

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Article Physics, Applied

Tunable metamaterial beam with shape memory alloy resonators: Theory and experiment

Vagner Candido de Sousa et al.

APPLIED PHYSICS LETTERS (2018)

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Article Physics, Multidisciplinary

Wave propagation in a nonlinear acoustic metamaterial beam considering third harmonic generation

Xin Fang et al.

NEW JOURNAL OF PHYSICS (2018)

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Review Chemistry, Analytical

Recent Advances in Tunable and Reconfigurable Metamaterials

Sanghun Bang et al.

MICROMACHINES (2018)

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Article Physics, Applied

Bridging-Coupling Band Gaps in Nonlinear Acoustic Metamaterials

Xin Fang et al.

PHYSICAL REVIEW APPLIED (2018)

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Article Engineering, Mechanical

Sensitivity analysis of parametric errors on the performance of a torsion quasi-zero-stiffness vibration isolator

Kai Wang et al.

INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES (2017)

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Article Mechanics

Generating ultra wide vibration stop bands by a novel inertial amplification mechanism topology with flexure hinges

S. Taniker et al.

INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES (2017)

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Article Physics, Applied

被撤回的出版物: Flexural wave suppression by an elastic metamaterial beam with zero bending stiffness (Retracted article. See vol. 125, 2019)

Yong Yan Zhang et al.

JOURNAL OF APPLIED PHYSICS (2017)

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Article Physics, Applied

Composite pentamode metamaterials with low frequency locally resonant characteristics

Zhaohong Wang et al.

JOURNAL OF APPLIED PHYSICS (2017)

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Article Physics, Applied

Frequency graded 1D metamaterials: A study on the attenuation bands

Arnab Banerjee et al.

JOURNAL OF APPLIED PHYSICS (2017)

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Article Physics, Applied

Local resonator with high-static-low-dynamic stiffness for lowering band gaps of flexural wave in beams

Jiaxi Zhou et al.

JOURNAL OF APPLIED PHYSICS (2017)

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Article Acoustics

Band gap transmission in periodic bistable mechanical systems

Michael J. Frazier et al.

JOURNAL OF SOUND AND VIBRATION (2017)

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Article Materials Science, Multidisciplinary

A hybrid elastic metamaterial with negative mass density and tunable bending stiffness

Yangyang Chen et al.

JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2017)

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Article Engineering, Mechanical

The effect and design of time delay in feedback control for a nonlinear isolation system

Xiuting Sun et al.

MECHANICAL SYSTEMS AND SIGNAL PROCESSING (2017)

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Article Physics, Multidisciplinary

Multi-low-frequency flexural wave attenuation in Euler-Bernoulli beams using local resonators containing negative-stiffness mechanisms

Jiaxi Zhou et al.

PHYSICS LETTERS A (2017)

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Article Multidisciplinary Sciences

Bistable metamaterial for switching and cascading elastic vibrations

Osama R. Bilal et al.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2017)

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Article Multidisciplinary Sciences

Ultra-low and ultra-broad-band nonlinear acoustic metamaterials

Xin Fang et al.

NATURE COMMUNICATIONS (2017)

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Article Nanoscience & Nanotechnology

Acoustic metamaterials with coupled local resonators for broadband vibration suppression

Guobiao Hu et al.

AIP ADVANCES (2017)

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Article Physics, Applied

Mechanical logic switches based on DNA-inspired acoustic metamaterials with ultrabroad low-frequency band gaps

Bowen Zheng et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2017)

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Article Physics, Applied

The two-degree-of-freedom local resonance elastic metamaterial plate with broadband low-frequency bandgaps

Kuan Lu et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2017)

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Article Physics, Applied

The phononic band gaps of Bragg scattering and locally resonant pentamode metamaterials

Chengxin Cai et al.

JOURNAL OF PHYSICS D-APPLIED PHYSICS (2017)

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Article Physics, Applied

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