Electromechanical analysis of electrostatic nano‐actuators using the differential quadrature method
DOI10.1002/cnm.1043zbMath1152.78002OpenAlexW2035405435MaRDI QIDQ5302284
Publication date: 6 January 2009
Published in: Communications in Numerical Methods in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/cnm.1043
electrostaticdifferential quadrature methodpull-innanoelectromechanical systemnano-actuatornanomechanical behavior
Finite difference methods applied to problems in optics and electromagnetic theory (78M20) Finite element, Galerkin and related methods applied to problems in optics and electromagnetic theory (78M10) Technical applications of optics and electromagnetic theory (78A55) Electro- and magnetostatics (78A30)
Related Items (3)
Cites Work
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- Static analysis of structures by the quadrature element method (QEM)
- Differential cubature method: A solution technique for Kirchhoff plates of arbitrary shape
- Static analysis of a curved shaft subjected to end torques
- Differential quadrature method for thick symmetric cross-ply laminates with first-order shear flexibility
- Upwind local differential quadrature method for solving incompressible viscous flow
- Differential quadrature method for Mindlin plates on Winkler foundations
- Axisymmetric free vibration of thick annular plates
- Exact and approximate dynamic analysis of circular arches using DQM
- Numerical Analysis of Nanotube Based NEMS Devices — Part II: Role of Finite Kinematics, Stretching and Charge Concentrations
- Differential quadrature method in the buckling analysis of beams and composite plates
- Flexural vibration of polygonal plates: treatments of sharp re-entrant corners
- On free vibration analysis of circular annular plates with non-uniform thickness by the differential quadrature method
- Dual reciprocity BEM applied to transient elastodynamic problem with differential quadrature method in time.
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