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Molecular Simulation Volume 48, 2022 - Issue 15
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Articles

Phonon modes involved in triggering threshold phenomenon characterising sliding-velocity dependence of wearless nanofriction

Keiji HayashiCentre for Electric, Optic and Energy Applications, Kanazawa Institute of Technology, Nonoichi, JapanCorrespondence[email protected]
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Pages 1362-1368 | Received 09 May 2022, Accepted 16 Jun 2022, Published online: 29 Jun 2022

References

  • Ashino M, Nishioka K, Hayashi K, et al. Anomalous flexural elasticities of graphene membranes unveiled by manipulating topology. Phys Rev Lett. 2021;126:146101.
  • Ashino M, Nishioka K, Hayashi K, et al. Precise measurement of the configurational energy of bent graphene membranes via three-dimensional force field spectroscopy. Phys Rev B. 2021;104:085407.
  • Sankar KM, Kakkar D, Dubey S, et al. Theoretical and computational studies on nanofriction: a review. J Eng Tribol. 2020;234:448–465.
  • Hayashi K, Kanayama T, Kawakita S, et al. Phonon-band engineering as a novel approach to modify frictional characteristics of mesoscopic solid materials. Comput Phys Commun. 2001;142:238–242.
  • Hayashi K. Phononic mechanism determining threshold speed of wearless sliding nanofriction clarified based on molecular dynamics simulations. Comput Mater Sci. 2021;188:110156.
  • Hayashi K, Shiraishi T, Toyoda K, et al. Temperature-controlled molecular dynamics study on velocity-dependent threshold behavior of dynamic nano-friction. Comput Phys Commun. 2011;182:2032–2035.
  • Hayashi K. Velocity-dependent threshold phenomenon predicted by nonequilibrium molecular dynamics study on wearless nanofriction. Mol Simul. 2021;47:674–677.
  • Hayashi K, Maeda A, Terayama T, et al. Molecular dynamics study of wearless friction in sub-micrometer size mechanisms and actuators based on an atomistic simplified model. Comput Mater Sci. 2000;17:356–360.

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