Mohsen Nikfar scite author profile

The geometrically nonlinear governing differential equations of motion and the corresponding boundary conditions are derived for the mechanical analysis of Timoshenko microbeams with large deflections, based on the strain gradient theory. The variational approach is employed to achieve the formulation. Hinged-hinged beams are considered as an important practical case, and their nonlinear static and free-vibration behaviors are investigated based on the derived formulation.

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Formulation for Static Behavior of the Viscoelastic Euler-Bernoulli Micro-Beam Based on the Modified Couple Stress Theory

Taati

Nikfar

Ahmadian

2012

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In this work an analytical solution is presented for a viscoelastic micro-beam based on the modified couple stress theory which is a non-classical theory in continuum mechanics. The modified couple stress theory has the ability to consider small size effects in micro-structures. It is strongly emphasized that without considering these effects in such structures the solution will be wrong and not suitable for designing systems in micro-scales. In this study correspondence principle is used for deriving constitutive equations for viscoelastic material based on the modified couple stress theory. Governing equilibrium equations are obtained by considering an element of micro-beam. Closed-form solution for the static deflection of simply supported micro-beam is presented. Numerical results show that when the size of system is near the length scale parameter, the classical response will intensely be deviated from the correct solution observed in laboratories contrary to the modified couple stress which reflects the size effects.

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A Two-Phase Machine Learning Approach for Predictive Maintenance of Low Voltage Industrial Motors

Nikfar

Bitencourt

Mykoniatis

2022

Procedia Computer Science

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A novel model for analysis of multilayer graphene sheets taking into account the interlayer shear effect

Nikfar

Asghari

2018

Meccanica

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Dynamic pull-in instability of multilayer graphene NEMSs: non-classical continuum model and molecular dynamics simulations

2022

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Mohsen Nikfar

A size-dependent nonlinear Timoshenko microbeam model based on the strain gradient theory

Formulation for Static Behavior of the Viscoelastic Euler-Bernoulli Micro-Beam Based on the Modified Couple Stress Theory

A Two-Phase Machine Learning Approach for Predictive Maintenance of Low Voltage Industrial Motors

A novel model for analysis of multilayer graphene sheets taking into account the interlayer shear effect

Dynamic pull-in instability of multilayer graphene NEMSs: non-classical continuum model and molecular dynamics simulations

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