Investigations of Slip Effect on the Performance of Micro Gas Bearings and Stability of Micro Rotor-Bearing Systems - Knudsen number - Document - PDFSEARCH.IO - Document Search Engine

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	Investigations of Slip Effect on the Performance of Micro Gas Bearings and Stability of Micro Rotor-Bearing Systems Add to Reading List Document Date: 2007-08-03 01:41:19 Open Document File Size: 1,51 MB Share Result on Facebook Company Knudsen / / / Facility Jieyu Chen State Key Laboratory of Mechanical System / Shanghai Jiao Tong University / / IndustryTerm lubricated gas flow / lubricated gas film / gas flow / micro fabrication technology / micro gas journal bearing / micro gas bearing / gas-film force increments / gas pressure / gas molecule / power density applications / gas bearings / machinery / gas journal bearing / gas bearing model / micro scale gas turbine generators / conventional gas bearings / gas pressure distributions / micro gas bearing steady-state operation performance / Gas pressure distribution / gas film / gas velocity slip effect / ambient gas / micro rotor-bearing systems / micro gas-bearing-rotor system / gas-film forces / gas bearing / gas-film force / gas layer / fabrication technologies / self-acting gas journal bearing / / Organization MIT / Shanghai Jiao Tong University / / Person Hai Huang / Guang Meng / / Position Author / small-scale gas bearing model for the rotor / flying head / / ProvinceOrState Pennsylvania / / Technology MEMS fabrication technologies / MEMS / micro fabrication technology / disk drive / simulation / FDM / / URL www.mdpi.org/sensors / / SocialTag Measurement Dimensionless quantity Rotordynamics Fluid mechanics Viscosity Knudsen number Engineering Physics Fluid dynamics Dimensional analysis