2001
DOI: 10.1109/84.925777
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Compact damping models for laterally moving microstructures with gas-rarefaction effects

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Cited by 129 publications
(88 citation statements)
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“…Veijola and Turowski [19] and Fichman and Hetsroni [20] performed theoretical analyses of the effective gas viscosity in nanospaces to illustrate that the effective viscosity of a gas in a nanospace is less than that in a large space. The MD simulation studies by Thomas et al [21] showed that the viscosity of water decreases in carbon nanotubes with diameters as small as 1.66 nm.…”
mentioning
confidence: 99%
“…Veijola and Turowski [19] and Fichman and Hetsroni [20] performed theoretical analyses of the effective gas viscosity in nanospaces to illustrate that the effective viscosity of a gas in a nanospace is less than that in a large space. The MD simulation studies by Thomas et al [21] showed that the viscosity of water decreases in carbon nanotubes with diameters as small as 1.66 nm.…”
mentioning
confidence: 99%
“…These so-called equations of state only involve the 2 Note that the term (∇v) T can alternatively be defined as (∇v) T = v ← − ∇ , where ← − ∇ is the so-called post gradient.…”
Section: Equations Of Statementioning
confidence: 99%
“…0 (−kΓr ) (4.57) where H (1) n and H (2) n are n th -order Hankel functions of the first and second kind, respectively. Applying the same strategy as for prismatic tubes to obtain an expression for volume flows in terms of pressure yields…”
Section: Circular Layersmentioning
confidence: 99%
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