2019
DOI: 10.7498/aps.68.20181905
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Influence of stiffness gradient on friction between graphene layers

Abstract: According to the molecular dynamics simulations and the mechanism of energy dissipation of nanofriction, we construct a model system with a flake sliding in commensurate configuration on a monolayer suspended graphene anchored on a bed of springs. The system is to analyze the contributions of different regions (T1-T7) of the graphene flake to friction force, with the substrate characterized by different stiffness gradients and midpoint stiffness.</br>The results indicate that the soft region of contact (… Show more

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Cited by 2 publications
(1 citation statement)
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“…To ensure that the tip is subjected to a constant normal load during the sliding process, a spring with a stiffness of 0.144 N m −1 is also applied to each atom of the tip in the z-direction. The normal load applied at the tip is 0.5 nN/atom, which is comparable to the existing load level in previous studies [23,36,37]. To reduce the normal vibration of the tip, an additional feedback mechanism is employed to control and adjust the position of the restrained atoms in the z-direction.…”
Section: Simulation Methodsmentioning
confidence: 64%
“…To ensure that the tip is subjected to a constant normal load during the sliding process, a spring with a stiffness of 0.144 N m −1 is also applied to each atom of the tip in the z-direction. The normal load applied at the tip is 0.5 nN/atom, which is comparable to the existing load level in previous studies [23,36,37]. To reduce the normal vibration of the tip, an additional feedback mechanism is employed to control and adjust the position of the restrained atoms in the z-direction.…”
Section: Simulation Methodsmentioning
confidence: 64%