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 …
Spatiotemporally nonlocal homogenization method for viscoelastic porous metamaterial structures
The underlying size-dependent mechanism of viscoelastic porous metamaterial structures is
still unclear, and the solution to their response using the high-fidelity numerical method is …
still unclear, and the solution to their response using the high-fidelity numerical method is …
Vibration analysis of the rotating multilayer piezoelectric Timoshenko nanobeam
M Mohammadi, A Farajpour, A Moradi… - Engineering Analysis with …, 2022 - Elsevier
The vibration behavior of multilayers piezoelectric nanobeam is investigated in this study.
The governing equations of rotating piezoelectric beams are obtained by utilizing the …
The governing equations of rotating piezoelectric beams are obtained by utilizing the …
A physically-based nonlocal strain gradient theory for crosslinked polymers
When the length scale of external stimulations is comparable to most chain lengths within a
polymeric solid, the nonlocal and microstructure-dependent strain-gradient effects become …
polymeric solid, the nonlocal and microstructure-dependent strain-gradient effects become …
A spatiotemporally-nonlocal continuum field theory of polymer networks
A physically-based continuum theory that captures the microstructure-dependent and
temporal effects of both permanent and transient polymer networks is still lacking, despite …
temporal effects of both permanent and transient polymer networks is still lacking, despite …
The strain gradient elasticity via nonlocal considerations
Strain gradient elasticity and nonlocal elasticity are two enhanced elastic theories
intensively used over the last fifty years to explain static and dynamic phenomena that …
intensively used over the last fifty years to explain static and dynamic phenomena that …
Capturing size effects in effective field methods through the prism of strain gradient elasticity
The majority of studies in the open literature use homogenization models that consider
microstructural parameters such as shape, orientation, distribution, and volume fraction of …
microstructural parameters such as shape, orientation, distribution, and volume fraction of …
A physics-based nonlocal theory for particle-reinforced polymer composites
How the nonlocal interaction effects of particle-reinforced polymer composites manifest
themselves from their underlying microstructure is not fully understood, thus greatly limiting …
themselves from their underlying microstructure is not fully understood, thus greatly limiting …
A multimesh finite element method for integral nonlocal elasticity using mesh-decoupling technique
W Ding, F Semperlotti - International Journal of Mechanical Sciences, 2024 - Elsevier
This study presents a generalized multimesh nonlocal finite element method (M 2-FEM) that
addresses several long-standing challenges in the numerical simulation of Eringen's …
addresses several long-standing challenges in the numerical simulation of Eringen's …
Energy Harvesting Capabilities and Bandgaps of Locally Resonant Piezoelectric Metamaterial Panels with Self-Extraction Synchronized Circuit
M Furjan, R Kolahchi, M Yaylacı - Applied Mathematical Modelling, 2025 - Elsevier
In this paper, we present an investigation into the unique energy harvesting and bandgap
features of a piezoelectric locally resonant metamaterial conical panel fitted with a self …
features of a piezoelectric locally resonant metamaterial conical panel fitted with a self …