Received: January 2nd, 2021 ; Accepted: April 2nd, 2021 ; Published: April 7th, 2021 ; Correspondence: [email protected] wall carbon nanotube is one of the promising forms of carbon nanocomposite.
Due to its high strength and stiffness, carbon nanotube is potentially used in various nanoscale
structures. In this paper, dynamic behaviour of single wall carbon nanotube partially embedded
into elastic soil medium is modelled by the Euler-Bernoulli beam theory and nonlocal theory of
elasticity. Analytical solution technique is employed to solve these governing differential
equations of nanotube. Analysing the effects of temperature, nonlocal parameter, coefficients of
elastic medium on dynamic behaviour of nanotube are our main concern. The results reveal that
the effects of temperature, nonlocal parameter and coefficients of elastic medium are very
significant on the natural frequency of nanotube