Wave manipulation in intelligent metamaterials: recent progress and prospects
Metamaterials (MMs), which include phononic crystals (PCs) as a particular type, exhibit
anomalous wave propagation properties through artificial design of topologies or lattice …
anomalous wave propagation properties through artificial design of topologies or lattice …
Fluid-induced transport dynamics and vibration patterns of multiphase vortex in the critical transition states
L Li, Y Tan, W Xu, Y Ni, J Yang, D Tan - International Journal of Mechanical …, 2023 - Elsevier
The utilization of nonlinear vibration patterns in fluid-structure coupling dynamics systems is
a potential strategy for real-time sensing technologies of microfluidic devices. In the systems …
a potential strategy for real-time sensing technologies of microfluidic devices. In the systems …
Nonlinear vibration and dynamic stability of dielectric sandwich micro-beams
J Chen, W Qu, C Ye, Z Zhao, H Wang - International Journal of Mechanical …, 2024 - Elsevier
Dielectric elastomers (DEs) have extensive applications in micro-electro-mechanical
systems and the biomedical fields. The utilization of DEs in driving micro-beams has …
systems and the biomedical fields. The utilization of DEs in driving micro-beams has …
Tunable anti-plane wave bandgaps in 2D periodic hard-magnetic soft composites
In this paper, we present a theoretical model for the analysis of large magneto-deformation
and the anti-plane shear wave bandgaps in 2D periodic two-phase hard magnetic soft …
and the anti-plane shear wave bandgaps in 2D periodic two-phase hard magnetic soft …
Magnetically tunable longitudinal wave band gaps in hard-magnetic soft laminates
Hard-magnetic soft materials belong to the class of active materials that undergo finite
deformation and alter their material properties when subjected to magnetic loading …
deformation and alter their material properties when subjected to magnetic loading …
An improved analytical model of a thick defective phononic crystal for bending wave excitation
This research aims to advance the existing analytical model, which was based on the Euler–
Bernoulli beam theory, for predicting the velocity amplitude of bending waves excited while …
Bernoulli beam theory, for predicting the velocity amplitude of bending waves excited while …
Optimized membrane-type acoustic metamaterials for alleviating engineering fatigue damage via lightweight optimization
L Peng, B Bao - Engineering Structures, 2023 - Elsevier
Currently, most acoustic metamaterials have been designed for ultra-thin sizes to achieve
perfect and low-frequency sound absorption or insulation performance, with less attention …
perfect and low-frequency sound absorption or insulation performance, with less attention …
Vibration mitigation and energy harvesting of vibro–impact dielectric elastomer oscillators
M Wu, J Zhang, H Wu - International Journal of Mechanical Sciences, 2024 - Elsevier
Dielectric elastomers (DEs), as a type of intelligent materials, have the characteristics of light
weight, high energy density, high conversion efficiency, and dam** effect, and thus can …
weight, high energy density, high conversion efficiency, and dam** effect, and thus can …
Inverse dynamic design for motion control of soft machines driven by dielectric elastomer actuators
Dielectric elastomers (DEs) are a sort of electroactive polymers with large and fast
responses, light masses and high energy densities. Hence, they are regarded as one of the …
responses, light masses and high energy densities. Hence, they are regarded as one of the …
[HTML][HTML] Smart electro-magneto-viscoelastomer minimum energy structures with particle-reinforcements: Theoretical equilibrium and nonlinear dynamics of actuated …
Soft transduction technology is rapidly adopting soft active elastomer-based minimum
energy structures because of their distinctive programmable shape-morphing …
energy structures because of their distinctive programmable shape-morphing …