Free and forced vibration nonlinear analysis of a microbeam using finite strain and velocity gradients theory

Free and forced vibration nonlinear analysis of a microbeam using finite strain and velocity gradients theory

A nonlinear finite strain and velocity gradient framework is formulated for the Euler–Bernoulli beam theory. This formulation includes finite strain and the strain gradient within the strain energy generalization as well as velocity and its gradient within the kinetic energy generalization. Conseque...

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Veröffentlicht in:Acta mechanica 2016-09, Vol.227 (9), p.2657-2670
Hauptverfasser: Fernandes, Ralston, Mousavi, S. Mahmoud, El-Borgi, Sami
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Classical and Continuum Physics
Control
Dynamical Systems
Energy (Physics)
Engineering
Engineering Thermodynamics
Euler-Bernoulli beams
Forced vibration
Heat and Mass Transfer
Kinetic energy
Kinetics
Maskinteknik
Mathematical analysis
Mechanical Engineering
Microbeams
Nanostructure
Nonlinear systems
Nonlinearity
Original Paper
Solid Mechanics
Strain
Theoretical and Applied Mechanics
Vibration
Vibration (Physics)
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Zusammenfassung:A nonlinear finite strain and velocity gradient framework is formulated for the Euler–Bernoulli beam theory. This formulation includes finite strain and the strain gradient within the strain energy generalization as well as velocity and its gradient within the kinetic energy generalization. Consequently, static and kinetic internal length scales are developed to capture size effects. The governing equation with initial and boundary conditions is obtained using the variational approach. Free and forced vibration of a simply supported nanobeam is studied for different values of static and kinetic length scales using the method of multiple scales.
ISSN:0001-5970
1619-6937
1619-6937
DOI:10.1007/s00707-016-1646-x