Size effect on pull-in behavior of electrostatically actuated microbeams based on a modified couple stress theory
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Publication:1789048
DOI10.1016/j.apm.2013.02.024zbMath1438.74100OpenAlexW1967070588MaRDI QIDQ1789048
Publication date: 9 October 2018
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2013.02.024
Rods (beams, columns, shafts, arches, rings, etc.) (74K10) Plates (74K20) Electromagnetic effects in solid mechanics (74F15) Elastic materials (74B99)
Related Items (16)
Investigation of size-dependent quasistatic response of electrically actuated nonlinear viscoelastic microcantilevers and microbridges ⋮ Size-dependent thermal bending of bilayer microbeam based on modified couple stress theory and Timoshenko beam theory ⋮ Nonlinear forced vibration of curved microbeam resting on nonlinear foundation using the modified strain gradient theory ⋮ Internal energy transfer in dynamical behaviour of Timoshenko microarches ⋮ Static and dynamic responses of a microcantilever with a T-shaped tip mass to an electrostatic actuation ⋮ Size-dependent pull-in voltage and nonlinear dynamics of electrically actuated microcantilever-based MEMS: a full nonlinear analysis ⋮ Static and eigenvalue problems of sigmoid functionally graded materials (S-FGM) micro-scale plates using the modified couple stress theory ⋮ A review and study on Ritz method admissible functions with emphasis on buckling and free vibration of isotropic and anisotropic beams and plates ⋮ Nonlinear modeling and analysis of electrically actuated viscoelastic microbeams based on the modified couple stress theory ⋮ Coupling effect of surface energy and dispersion forces on nonlinear size-dependent pull-in instability of functionally graded micro-/nanoswitches ⋮ A theoretical study for the vibration of a cantilever microbeam as a free boundary problem ⋮ Analysis of Nonlinear Vibration and Instability of Electrostatically Actuated Fluid-Conveying Micro Beams ⋮ Size-dependent dynamic pull-in analysis of beam-type MEMS under mechanical shock based on the modified couple stress theory ⋮ Beyond pull-in angle control of a dual axis torsional micro-actuator considering bending effects ⋮ Static analysis of planar arbitrarily curved microbeams with the modified couple stress theory and Euler-Bernoulli beam model ⋮ Sensitivity analysis of pull-in voltage for RF MEMS switch based on modified couple stress theory
Cites Work
- Investigation of the size effects in Timoshenko beams based on the couple stress theory
- The size-dependent natural frequency of Bernoulli-Euler micro-beams
- Static and dynamic analysis of micro beams based on strain gradient elasticity theory
- A microstructure-dependent Timoshenko beam model based on a modified couple stress theory
- A new Kirchhoff plate model based on a modified couple stress theory
- Elastic materials with couple-stresses
- Nonlinear dynamic analysis of MEMS switches by nonlinear modal analysis
- Experiments and theory in strain gradient elasticity.
- Geometrically nonlinear micro-plate formulation based on the modified couple stress theory
- Couple stress based strain gradient theory for elasticity
- Reduced-order models for MEMS applications
- Micro-structure in linear elasticity
- Dynamics and Global Stability of Beam-based Electrostatic Microactuators
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