For citation:
Glukhova O. E., Kirillova I. V., Slepchenkov M. M., Shunaev V. V. Theoretical investigation of the deformed graphene nanostructures. Izvestiya of Saratov University. Mathematics. Mechanics. Informatics, 2012, vol. 12, iss. 4, pp. 66-71. DOI: 10.18500/1816-9791-2012-12-4-66-71
Theoretical investigation of the deformed graphene nanostructures
The results of the theoretical investigations of properties of the deformed graphene structures are presented in this work. We investigated mechanical properties of the bi-layer graphene structures by means of the molecular dynamics method. To evaluate mechanical properties of graphene we applied a compression load to graphene. As a result of the investigations it was found that graphene became a wave-like with the increase of the compression. The number of half-wave, generated on the graphene surface depends on the size of graphene.
- Frank O., Tsoukleri G., Parthenios J., Papagelis K., Riaz I., Jalil R., Novoselov K. S. Compression Behavior of Single-Layer Graphenes // ACS Nano. 2010. Vol. 4. P. 3131–3138.
- Neek-Amal M., Peeters F. M. Graphene nano ribbons subjected to axial stress // Phys. Rev. Ser. B. 2010. Vol. 82, iss. 8. P. 085432–085437.
- Lu Q., Gao W., Huang R. Atomistic simulation and continuum modeling of graphene nanoribbons under uniaxial tension // Modelling and Simulation in Materials Science and Engineering. 2011. Vol. 19, № 5. P. 054006–054022.
- Neek-Amal M., Peeters F. M. Nanoindentation of a circular sheet of bilayer graphene // Phys. Rev. Ser. B. 2010. Vol. 81, iss. 23. P. 235421–235426. 5. Zhang Y. Y., Wang C. M., Cheng Y., Xiang Y. Mechanical properties of bilayer graphene sheets coupled by sp3 bonding // Carbon. 2011. Vol. 49, iss. 13. P. 4511–4517.
- 1072 reads