Thermal effects and spontaneous frictional relaxation in atomically thin layered materials

arXiv: Mesoscale and Nanoscale Physics Pub Date : 2020-12-01 DOI:10.1103/PhysRevB.103.195441
J. Sheehan, David Andersson, A. S. de Wijn
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Abstract

We study the thermal effects on the frictional properties of atomically thin sheets. We simulate a simple model based on the Prandtl-Tomlinson model that reproduces the layer dependence of friction and strengthening effects seen in AFM experiments. We investigate sliding at constant speed as well as reversing direction. We also investigate contact aging: the changes that occur to the contact when the sliding stops completely. We compare the numerical results to analytical calculations based on Kramers rates. We find that there is a slower than exponential contact aging that weakens the contact and that we expect will be observable in experiments. We discuss the implications for sliding as well as aging experiments.
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原子薄层材料中的热效应和自发摩擦松弛
我们研究了热效应对原子薄片摩擦性能的影响。我们模拟了一个基于Prandtl-Tomlinson模型的简单模型,该模型再现了AFM实验中看到的摩擦和强化效应的层依赖关系。我们研究匀速滑动和倒车方向。我们还研究了接触老化:当滑动完全停止时接触发生的变化。我们将数值结果与基于克莱默率的分析计算结果进行比较。我们发现有一个比指数更慢的接触老化,这削弱了接触,我们期望在实验中可以观察到。我们讨论了滑动以及老化实验的含义。
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arXiv: Mesoscale and Nanoscale Physics
arXiv: Mesoscale and Nanoscale Physics
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