Nonlinear buckling mode transition analysis in nonlocal couple stress-based stability of FG piezoelectric nanoshells under thermo-electromechanical load
Smart materials and structures at the nanoscale represent the main components in
manufacturing plan for nano-electromechanical systems. In this research study, an …
manufacturing plan for nano-electromechanical systems. In this research study, an …
Buckling mode transition in nonlinear strain gradient-based stability behavior of axial-thermal-electrical loaded FG piezoelectric cylindrical panels at microscale
In the current investigation, the microstructural-dependent nonlinear stability characteristics
of functionally graded (FG) piezoelectric cylindrical micropanels under combinations of axial …
of functionally graded (FG) piezoelectric cylindrical micropanels under combinations of axial …
RETRACTED ARTICLE: Nonlinear buckling mode transition analysis of axial–thermal–electrical-loaded FG piezoelectric nanopanels incorporating nonlocal and …
R Rao, Z Ye, Z Yang, S Sahmani, B Safaei - Archives of Civil and …, 2022 - Springer
Piezoelectric nanostructures are one of the essential components in the design of
electromechanical systems and devices at nanoscale. In the present exploration, a size …
electromechanical systems and devices at nanoscale. In the present exploration, a size …
Finite element modeling and analysis of flexoelectric plates using gradient electromechanical theory
YS Joshan, S Santapuri - Continuum Mechanics and Thermodynamics, 2024 - Springer
This work presents the development of a two-way coupled flexoelectric plate theory starting
from a 3D gradient electromechanical theory. The gradient electromechanical theory …
from a 3D gradient electromechanical theory. The gradient electromechanical theory …
A gradient electromechanical theory for thin dielectric curved beams considering direct and converse flexoelectric effects
YS Joshan, S Santapuri - Zeitschrift für angewandte Mathematik und …, 2022 - Springer
This work presents the development of a unified gradient electromechanical theory for thin
flexoelectric beams considering both direct and converse flexoelectric effects. The two-way …
flexoelectric beams considering both direct and converse flexoelectric effects. The two-way …
Modelling and design of ultra-high stable fabry–pérot cavity
Lasers having sub-Hz linewidth and long-term stability better than a few parts in 1 0 16 is an
unavoidable requisite to achieve unprecedented accuracy in the optical atomic clocks …
unavoidable requisite to achieve unprecedented accuracy in the optical atomic clocks …
Longitudinal modes of a surface bonded piezoelectric wafer active transducer (PWaT) and their influences on PWaT resonances
H Huang - Ultrasonics, 2023 - Elsevier
This work investigates the longitudinal modes of surface-bonded piezoelectric wafer active
transducers (PWaTs) and how they influence the PWaT resonances. Unlike conventional …
transducers (PWaTs) and how they influence the PWaT resonances. Unlike conventional …
Finite element analysis and design of a magnetostrictive material based vibration energy harvester with a magnetic flux path
This work presents the development of a nonlinear 2D finite element (FE) framework for
magnetostrictive material based energy harvesters of beam geometry. The FE model is …
magnetostrictive material based energy harvesters of beam geometry. The FE model is …
A computationally efficient C0 continuous finite element model for thermo-mechanical analysis of cross-ply and angle-ply composite plates in non-polynomial …
In the present article, the thermo-mechanical bending response of multi-layered composite
plates is investigated in the framework of inverse-hyperbolic shear deformation theory using …
plates is investigated in the framework of inverse-hyperbolic shear deformation theory using …