Transitional Failure of Carbon Nanotube Systems under a Combination ofTension and Torsion

Article English OPEN
Byeong-Woo Jeong;
  • Publisher: Hindawi Publishing Corporation
  • Journal: issn: 1687-4110, eissn: 1687-4129
  • Publisher copyright policies & self-archiving
  • Related identifiers: doi: 10.1155/2012/847307
  • Subject: Technology (General) | T1-995 | Article Subject
    mesheuropmc: surgical procedures, operative | inorganic chemicals | body regions | otorhinolaryngologic diseases | biological sciences

Transitional failure envelopes of single- and double-walled carbon nanotubes under combined tension-torsion are predicted using classical molecular dynamics simulations. The observations reveal that while the tensile failure load decreases with combined torsion, the tor... View more
  • References (28)
    28 references, page 1 of 3

    Cohen-Karni, T., Segev, L., Srur-Lavi, O., Cohen, S. R., Joselevich, E.. Torsional electromechanical quantum oscillations in carbon nanotubes. Nature Nanotechnology. 2006; 1 (1): 36-41

    Fennimore, A. M., Yuzvinsky, T. D., Han, W. Q., Fuhrer, M. S., Cumings, J., Zetti, A.. Rotational actuators based on carbon nanotubes. Nature. 2003; 424 (6947): 408-410

    Hall, A. R., Falvo, M. R., Superfine, R., Washburn, S.. A self-sensing nanomechanical resonator built on a single-walled carbon nanotube. Nano Letters. 2008; 8 (11): 3746-3749

    Meyer, J. C., Paillet, M., Roth, S.. Materials science: single-molecule torsional pendulum. Science. 2005; 309 (5740): 1539-1541

    Papadakis, S. J., Hall, A. R., Williams, P. A., Vicci, L., Falvo, M. R., Superfine, R., Washburn, S.. Resonant oscillators with carbon-nanotube torsion springs. Physical Review Letters. 2004; 93 (14)-4

    Baughman, R. H., Zakhidov, A. A., De Heer, W. A.. Carbon nanotubes—the route toward applications. Science. 2002; 297 (5582): 787-792

    Sazonova, V., Yalsh, Y., Üstünel, I., Roundy, D., Arlas, T. A., McEuen, P. L.. A tunable carbon nanotube electrochemical oscillator. Nature. 2004; 431 (7006): 284-287

    Belytschko, T., Xiao, S. P., Schatz, G. C., Ruoff, R. S.. Atomistic simulations of nanotube fracture. Physical Review B. 2002; 65 (23)-8

    Jeong, B. W., Lim, J. K., Sinnott, S. B.. Tensile mechanical behavior of hollow and filled carbon nanotubes under tension or combined tension-torsion. Applied Physics Letters. 2007; 90 (2)-3

    Jeong, B. W., Lim, J. K., Sinnott, S. B.. Elastic torsional responses of carbon nanotube systems. Journal of Applied Physics. 2007; 101 (8)-7

  • Metrics
Share - Bookmark