论文信息 - Velocity-dependent threshold behavior of wearless nano-friction

Velocity-dependent threshold behavior of wearless nano-friction

Abstract A law of friction accompanying steady sliding motion between crystal lattices constituting a nano-electromechanical system (NEMS) was revealed by molecular dynamics simulations using simplified models. A threshold phenomenon was predicted as a common feature characterizing dependence of the wearless frictional resistance on the sliding velocity vstroke. The threshold sliding velocity vth linearly depends on the lattice-constant ratio, which was turned out to be a key parameter determining vth. The increased dynamic-frictional force in the case of vstroke > vth possibly reflects enhanced rate of energy dissipation via anharmonicity of the interatomic potential due to resonant excitation of phase-matched normal phonon modes in the crystal lattices sliding relative to each other.

[1] Sokoloff Jb. Microscopic mechanisms for kinetic friction: Nearly frictionless sliding for small solids , 1995 .

[2] Keiji Hayashi,et al. Possible Designing Mesoscopic Materials of Desired Frictional Characteristics by Phonon-Band Engineering , 2000 .

[3] Keiji Hayashi,et al. A new measure of local temperature distribution in non-equilibrium molecular dynamics simulation of friction , 1996 .

[4] Takuo Kanayama,et al. Phonon-band engineering as a novel approach to modify frictional characteristics of mesoscopic solid materials , 2001 .

[5] Keiji Hayashi,et al. Molecular dynamics study of wearless friction in sub-micrometer size mechanisms and actuators based on an atomistic simplified model , 2000 .

[6] Daisuke Tanaka,et al. Molecular dynamics study of atomistic mechanisms of wearless friction determining threshold sliding velocity , 2007, Comput. Phys. Commun..