Buckling analyses of double-wall carbon nanotubes: A shell theory based on the interatomic potential

W. B. Lu; J. Wu; X. Feng; K. C. Hwang; Y. Huang

doi:10.1115/1.4001286

Buckling analyses of double-wall carbon nanotubes: A shell theory based on the interatomic potential

W. B. Lu, J. Wu, X. Feng^*, K. C. Hwang, Y. Huang

^*Corresponding author for this work

Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Based on the finite-deformation shell theory for carbon nanotubes established from the interatomic potential and the continuum model for van der Waals (vdW) interactions, we have studied the buckling of double-walled carbon nanotubes subjected to compression or torsion. Prior to buckling, the vdW interactions have essentially no effect on the deformation of the double-walled carbon nanotube. The critical buckling strain of the double-wall carbon nanotubes is always between those for the inner wall and for the outer wall, which means that the vdW interaction decelerates buckling of one wall at the expenses of accelerating the buckle of the other wall.

Original language	English (US)
Article number	061016
Journal	Journal of Applied Mechanics, Transactions ASME
Volume	77
Issue number	6
DOIs	https://doi.org/10.1115/1.4001286
State	Published - 2010

Keywords

buckling
carbon nanotube
interatomic potential
shell theory
van der Waals interactions

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1115/1.4001286

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title = "Buckling analyses of double-wall carbon nanotubes: A shell theory based on the interatomic potential",

abstract = "Based on the finite-deformation shell theory for carbon nanotubes established from the interatomic potential and the continuum model for van der Waals (vdW) interactions, we have studied the buckling of double-walled carbon nanotubes subjected to compression or torsion. Prior to buckling, the vdW interactions have essentially no effect on the deformation of the double-walled carbon nanotube. The critical buckling strain of the double-wall carbon nanotubes is always between those for the inner wall and for the outer wall, which means that the vdW interaction decelerates buckling of one wall at the expenses of accelerating the buckle of the other wall.",

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T1 - Buckling analyses of double-wall carbon nanotubes

T2 - A shell theory based on the interatomic potential

AU - Lu, W. B.

AU - Wu, J.

AU - Feng, X.

AU - Hwang, K. C.

AU - Huang, Y.

PY - 2010

Y1 - 2010

N2 - Based on the finite-deformation shell theory for carbon nanotubes established from the interatomic potential and the continuum model for van der Waals (vdW) interactions, we have studied the buckling of double-walled carbon nanotubes subjected to compression or torsion. Prior to buckling, the vdW interactions have essentially no effect on the deformation of the double-walled carbon nanotube. The critical buckling strain of the double-wall carbon nanotubes is always between those for the inner wall and for the outer wall, which means that the vdW interaction decelerates buckling of one wall at the expenses of accelerating the buckle of the other wall.

AB - Based on the finite-deformation shell theory for carbon nanotubes established from the interatomic potential and the continuum model for van der Waals (vdW) interactions, we have studied the buckling of double-walled carbon nanotubes subjected to compression or torsion. Prior to buckling, the vdW interactions have essentially no effect on the deformation of the double-walled carbon nanotube. The critical buckling strain of the double-wall carbon nanotubes is always between those for the inner wall and for the outer wall, which means that the vdW interaction decelerates buckling of one wall at the expenses of accelerating the buckle of the other wall.

KW - buckling

KW - carbon nanotube

KW - interatomic potential

KW - shell theory

KW - van der Waals interactions

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Buckling analyses of double-wall carbon nanotubes: A shell theory based on the interatomic potential

Abstract

Keywords

ASJC Scopus subject areas

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