Nanoparticle delivery through single walled carbon nanotube subjected to various boundary conditions

Dynamic behavior of single walled carbon nanotubes (CNTs) delivering a nanoparticle with constant velocity is investigated subject to various boundary conditions. The governing equation is derived based on nonlocal Euler–Bernoulli beam theory. The Vander Waals force is taken into account using a con...

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Published in	Microsystem technologies : sensors, actuators, systems integration Vol. 25; no. 4; pp. 1345 - 1356
Main Authors	Rezapour, B., Fariborzi Araghi, M. A.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 04.04.2019
Subjects	Electronics and Microelectronics Engineering Instrumentation Mechanical Engineering Nanotechnology Technical Paper
Online Access	Get full text
ISSN	0946-7076 1432-1858
DOI	10.1007/s00542-018-4191-9

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Abstract	Dynamic behavior of single walled carbon nanotubes (CNTs) delivering a nanoparticle with constant velocity is investigated subject to various boundary conditions. The governing equation is derived based on nonlocal Euler–Bernoulli beam theory. The Vander Waals force is taken into account using a confined spring connecting the nanoparticle to the CNT. Furthermore, the effect of surrounding are modeled as elastic foundation. Besides, a mixed Galerkin-differential quadrature (DQ) method is introduced to solve the problem. First, the partial differential equation is converted to a set of ordinary differential equations by applying Galerkin method and then a step-by-step differential quadrature method utilized to solve the set. The solution is verified by comparing the results with the exact solution for double simply-supported CNT and a great agreement is achieved. Furthermore, the convergence of the method is studied. Then, the time history of the CNT’s vibration is provided via 3-D figures for a case study. Moreover, the effects of particle’s velocity on maximum deformation of the CNT for several boundary conditions are investigated and the critical speeds are estimated.
AbstractList	Dynamic behavior of single walled carbon nanotubes (CNTs) delivering a nanoparticle with constant velocity is investigated subject to various boundary conditions. The governing equation is derived based on nonlocal Euler–Bernoulli beam theory. The Vander Waals force is taken into account using a confined spring connecting the nanoparticle to the CNT. Furthermore, the effect of surrounding are modeled as elastic foundation. Besides, a mixed Galerkin-differential quadrature (DQ) method is introduced to solve the problem. First, the partial differential equation is converted to a set of ordinary differential equations by applying Galerkin method and then a step-by-step differential quadrature method utilized to solve the set. The solution is verified by comparing the results with the exact solution for double simply-supported CNT and a great agreement is achieved. Furthermore, the convergence of the method is studied. Then, the time history of the CNT’s vibration is provided via 3-D figures for a case study. Moreover, the effects of particle’s velocity on maximum deformation of the CNT for several boundary conditions are investigated and the critical speeds are estimated.
Author	Rezapour, B. Fariborzi Araghi, M. A.
Author_xml	– sequence: 1 givenname: B. surname: Rezapour fullname: Rezapour, B. organization: Department of Mathematics, Central Tehran Branch, Islamic Azad University – sequence: 2 givenname: M. A. orcidid: 0000-0002-5467-9296 surname: Fariborzi Araghi fullname: Fariborzi Araghi, M. A. email: fariborzi.araghi@gmail.com, m_fariborzi@iauctb.ac.ir organization: Department of Mathematics, Central Tehran Branch, Islamic Azad University
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Title	Nanoparticle delivery through single walled carbon nanotube subjected to various boundary conditions
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