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Smart Structures and Systems Volume 13, Number 4, April 2014 , pages 685-709 DOI: https://doi.org/10.12989/sss.2014.13.4.685 |
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Mechanical properties and deformation behavior of carbon nanotubes calculated by a molecular mechanics approach |
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Oliver Eberhardt and Thomas Wallmersperger
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| Abstract | ||
| Carbon nanotubes are due to their outstanding mechanical properties destined for a wide range of possible applications. Since the knowledge of the material behavior is vital regarding the possible applications, experimental and theoretical studies have been conducted to investigate the properties of this promising material. The aim of the present research is the calculation of mechanical properties and of the mechanical behavior of single wall carbon nanotubes (SWCNTs). The numerical simulation was performed on basis of a molecular mechanics approach. Within this approach two different issues were taken into account: (i) the nanotube geometry and (ii) the modeling of the covalent bond. The nanotube geometry is captured by two different approaches, the roll-up and the exact polyhedral model. The covalent bond is modeled by a structural molecular mechanics approach according to Li and Chou. After a short introduction in the applied modeling techniques, the results for the Young\'s modulus for several SWCNTs are presented and are discussed extensively. The obtained numerical results are compared to results available in literature and show an excellent agreement. Furthermore, deviations in the geometry stemming from the different models are given and the resulting differences in the numerical findings are shown. Within the investigation of the deformation mechanisms occurring in SWCNTs, the basic contributions of each individual covalent bond are considered. The presented results of this decomposition provide a deeper understanding of the governing deformation mechanisms in SWCNTs. | ||
| Key Words | ||
| carbon nanotube; single wall nanotube; molecular mechanics; mechanical properties; modeling | ||
| Address | ||
| Oliver Eberhardt and Thomas Wallmersperger:Institut für Festkörpermechanik, Technische Universität Dresden, George-Bähr-Strabe 3c, 01069 Dresden,Germany | ||