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Nonlinear Oscillations of CNT Nano-resonator Based on Nonlocal Elasticity: The Energy Balance Method

Masoud Goharimanesh, Ali Koochi

2021Reports in Mechanical Engineering39 citationsDOIOpen Access PDF

Abstract

This paper deals with investigating the nonlinear oscillation of carbon nanotube manufactured nano-resonator. The governing equation of the nano-resonator is extracted in the context of the nonlocal elasticity. The impact of the Casimir force is also incorporated in the developed model. A closed-form solution based on the energy balance method is presented for investigating the oscillations of the nano-resonator. The proposed closed-form solution is compared with the numerical solution. The impact of influential parameters including applied voltage, Casimir force, geometrical and nonlocal parameters on the nano resonator’s vibration and frequency are investigated. The obtained results demonstrated that the Casimir force reduces the nano-resonator frequency. However, the nonlocal parameter has a hardening effect and enhances the system’s frequency.

Topics & Concepts

Casimir effectResonatorNano-Elasticity (physics)VibrationNonlinear systemOscillation (cell signaling)PhysicsMechanicsThermoelastic dampingContext (archaeology)Carbon nanotubeClassical mechanicsMaterials scienceCondensed matter physicsNanotechnologyAcousticsThermodynamicsQuantum mechanicsOpticsChemistryBiochemistryThermalBiologyPaleontologyMechanical and Optical ResonatorsNonlocal and gradient elasticity in micro/nano structuresCarbon Nanotubes in Composites
Nonlinear Oscillations of CNT Nano-resonator Based on Nonlocal Elasticity: The Energy Balance Method | Litcius