Abstract

The effect of chiral angle independent from diameter on tensile behavior of single-walled carbon nanotubes (SWCNTs) is studied. Two methods in finite element continuum mechanics modeling of SWCNTs are used. The role of chiral angle and diameter are investigated independently on linear and nonlinear tensile behavior of SWCNTs by modeling several types of nanotubes. Nonlinear tensile behavior is more influenced by chiral angle than the linear Young's modulus of SWCNTs. On the other hand, the effect of diameter is found to be more obvious on Young's modulus than nonlinear tensile behavior of SWCNTs.

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