Regular and reverse nanoscale stick-slip behavior: Modeling and experiments

Fakhreddine Landolsi; Yuekai Sun; Hao Lu; Fathi H. Ghorbel; Jun Lou

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Regular and reverse nanoscale stick-slip behavior: Modeling and experiments

机译：正则和反向纳米尺度的粘滑行为：建模和实验

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We recently proposed a new nanoscale friction model based on the bristle interpretation of single asperity contacts. The model is mathematically continuous and dynamic which makes it suitable for implementation in nanomanipulation and nanorobotic modeling. In the present paper, friction force microscope (FFM) scans of muscovite mica samples and vertically aligned multi-wall carbon nanotubes (VAMWCNTs) arrays are conducted. The choice of these materials is motivated by the fact that they exibit different stick-slip behaviors. The corresponding experimental and simulation results are compared. Our nanoscale friction model is shown to represent both the regular and reverse frictional sawtooth characteristics of the muscovite mica and the VAMWCNTs, respectively.

机译：我们最近基于单次粗糙接触的刚毛解释提出了一种新的纳米级摩擦模型。该模型在数学上是连续且动态的，因此适合在纳米操纵和纳米机器人建模中实施。在本文中，进行了白云母云母样品和垂直排列的多壁碳纳米管（VAMWCNTs）阵列的摩擦力显微镜（FFM）扫描。这些材料的选择会表现出不同的粘滑特性，从而促使人们选择这些材料。比较了相应的实验和仿真结果。我们的纳米级摩擦模型显示出分别代表白云母云母和VAMWCNT的正向和反向摩擦锯齿特性。

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来源
《Applied Surface Science》 |2010年第8期|2577-2582|共6页
作者
Fakhreddine Landolsi; Yuekai Sun; Hao Lu; Fathi H. Ghorbel; Jun Lou;
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作者单位

Department of Mechanical Engineering and Materials Science, Rice University, 6100 Main St., Houston, TX 77005, USA;

Department of Mechanical Engineering and Materials Science, Rice University, 6100 Main St., Houston, TX 77005, USA;

Department of Mechanical Engineering and Materials Science, Rice University, 6100 Main St., Houston, TX 77005, USA;

Department of Mechanical Engineering and Materials Science, Rice University, 6100 Main St., Houston, TX 77005, USA;

Department of Mechanical Engineering and Materials Science, Rice University, 6100 Main St., Houston, TX 77005, USA;

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正文语种 eng
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关键词
nanoscale friction; dynamic modeling; stick-slip behavior;

机译：纳米级摩擦动态建模粘滑行为;

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Regular and reverse nanoscale stick-slip behavior: Modeling and experiments

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