Microscale Friction Reduction by Normal Force Modulation in MEMS

W. M. van Spengen; G. H. C. J. Wijts; V. Turq

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Microscale Friction Reduction by Normal Force Modulation in MEMS

机译：MEMS中通过法向力调制实现的微尺度摩擦减小

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Friction in MEMS-scale devices is troublesome because it can result in lateral stiction of two sliding surfaces. We have investigated the effect of modulation of the normal force on the friction between two sliding MEMS surfaces, using a fully MEMS-based tribometer. We have found that the friction is reduced significantly when the modulation is large enough. A simple model is presented that describes the friction reduction as a function of modulation frequency as well. Using this technique, lateral stiction-related seizure of microscopic sliding components can be mitigated.

机译：MEMS规模的设备中的摩擦很麻烦，因为它可能导致两个滑动表面的侧向固定。我们已经使用完全基于MEMS的摩擦计研究了法向力调制对两个滑动MEMS表面之间的摩擦的影响。我们发现，当调制足够大时，摩擦将大大降低。提出了一个简单的模型，该模型还将摩擦减小描述为调制频率的函数。使用这种技术，可以减轻与横向静摩擦有关的微观滑动部件的卡住。

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《Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology 》 |2010年第16期| 共12页
作者
W. M. van Spengen; G. H. C. J. Wijts; V. Turq;
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正文语种 eng
中图分类胶粘剂工业 ;
关键词
MEMS; friction; modulation; vibration;

机译：MEMS;摩擦;调制;振动;

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专利

1. Microscale Friction Reduction by Normal Force Modulation in MEMS [J] . W. M. van Spengen, G. H. C. J. Wijts, V. Turq Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2010 ,第15a16期

机译：MEMS中通过法向力调制实现的微尺度摩擦减小
2. EXPERIMENTAL INVESTIGATION OF FRICTION FORCE REDUCTION IN SLIDING MOTION WITH SIMULTANEOUS TANGENTIAL AND NORMAL VIBRATIONS [J] . Pawel GUTOWSKI, Mariusz LEUS Tribologia . 2017 ,第1a271期

机译：具有同声切向和正常振动滑动运动摩擦力降低的实验研究
3. Influence of vibrated area and normal force on friction reduction ratio between NBR/aluminum couple (vol 82, pg 95, 2015) [J] . Gao Han, Guo Yansong, Bao Gang, Tribology International . 2016 ,第Null期

机译：振动面积和法向力对NBR /铝对之间的摩擦减小比的影响（vol 82，pg 95，2015）
4. Solutions for friction reduction at nano/microscale for MEMS actuators-based devices [C] . R. Arvind Singh, S. Jayalakshmi, E. S. Yoon, International Conference on Energy Efficient Technologies for Sustainability . 2016

机译：基于MEMS驱动器的设备的纳米/微米级摩擦减小解决方案
5. Novel Design and Fabrication of Multilayered Carbon MEMS for Microscale Electroporation for a CRISPR Platform [D] . O'Neill, Colin. 2019

机译：用于CRISPR平台的微尺度电穿孔的多层碳MEM的新颖设计和制造
6. The description of friction of silicon MEMS with surface roughness: virtues and limitations of a stochastic Prandtl–Tomlinson model and the simulation of vibration-induced friction reduction [O] . W Merlijn van Spengen, Viviane Turq, Joost W M Frenken 2010

机译：具有表面粗糙度的硅MEMS摩擦的描述：随机Prandtl–Tomlinson模型的优点和局限性以及振动引起的摩擦减小的模拟
7. Microscale friction reduction by normal force modulation in MEMS [O] . Van Spengen W. Merlijn, Wijts Geert, Turq Viviane, 2010

机译：通过MEMS中的法向力调制来减小微尺度的摩擦
8. Microscale rarefied gas dynamics and surface interactions for EUVL and MEMS applications. [R] . 2004

机译：用于EUVL和mEms应用的微尺度稀薄气体动力学和表面相互作用。

Microscale Friction Reduction by Normal Force Modulation in MEMS

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