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1 article(s) from van Spengen, W Merlijn

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

W. Merlijn van Spengen,
Viviane Turq and
Joost W. M. Frenken

Beilstein J. Nanotechnol. 2010, 1, 163–171, doi:10.3762/bjnano.1.20

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Figure 1: Schematic top view of the MEMS tribometer for studying microscale friction [19]. Several slider types h...

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Figure 2: Typical 1000-cycle-average friction loops obtained with the tribometer of Figure 1 [19], at 27 °C and a relativ...

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Figure 3: Determination of the average friction force. The area enclosed by the dashed lines provides the bes...

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Figure 4: The average friction force (determined as depicted in Figure 3) as a function of the normal load is more or...

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Figure 5: The counter-surface is held by two small beams. After the experiments, the beams can be broken and ...

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Figure 6: Autocorrelation function R_xx(x) of a pristine sidewall surface measured with AFM, and theoretical e...

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Figure 7: Examples of curves simulated with the stochastic Prandtl–Tomlinson model for two realizations of th...

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Figure 8: Modulation of the normal force at a frequency much higher than the frequency of the stick-slip even...

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Figure 9: The major features of the experiment shown in Figure 8, including the amplitude reduction and the visibilit...

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Figure 10: Calculated and measured friction reduction as a function of vibration amplitude (frequency held con...

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Published 22 Dec 2010

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