References for the Thin-Film Flow Interfaces
1. B.J. Hamrock, S.R. Schmid, and B.O. Jacobson, Fundamentals of Fluid Film Lubrication, Marcel Dekker, 2004.
2. F. Sharipov, “Data on the Velocity Slip and Temperature Jump on a Gas-Solid Interface,” J. Phys. Chem. Ref. Data, vol. 40, no. 2, p. 023101, 2011.
3. Felix Sharipov, Rarefied Gas Dynamics: Fundamentals for Research and Practice, Wiley, 2016.
4. S. Fukui and R. Kaneko, “Analysis of Ultra-Thin Gas Film Lubrication Based on Linearized Boltzmann Equation: First Report — Derivation of a Generalized Lubrication Equation Including Thermal Creep Flow,” J. Tribology, vol. 110, no. 2, pp. 253–261, 1988.
5. S. Fukui and R. Kaneko, “A Database for Interpolation of Poiseuille Flow Rates for High Knudsen Number Lubrication,” Transactions of the ASME, vol. 112, pp. 78–83, 1990.
6. T. Veijola, H. Kuisma, and J. Lahdenperä, “The Influence of Gas-surface Interaction on Gas Film Damping in a Silicon Accelerometer,” Sens. Actuators A Phys., vol. 66, pp. 83–92, 1998.
7. C. Cercignani, M. Lampis, and S. Lorenzani “Variational Approach to Gas Flows in Microchannels,” Phys. Fluids, vol. 16, no. 9, p. 3426, 2004.
8. J.R. Torczynski and M.A. Gallis, “DSMC-Based Shear-Stress/Velocity-Slip Boundary Condition for Navier–Stokes Couette-Flow Simulations,” 27th International Symposium on Rarefied Gas Dynamics (2010), AIP Conf. Proc. vol. 1333, pp. 802–807, 2011.
9. M.A. Gallis and J.R. Torczynski, “An Improved Reynolds-Equation Model for Gas Damping of Microbeam Motion,” J. Microelectromechanical Syst., vol. 13, pp. 653–659, 2004.
10. H.G. Elrod, “A Cavitation Algorithm,” J. Lubrication Technology, vol. 103, no. 3, pp. 350–354, 1981.
11. H.G. Elrod and M.L. Adams, “A computer program for cavitation and starvation problems”, Cavitation and related phenomena in lubrication, Proceedings of the 1st Leeds–Lyon Symposium on Tribology, University of Leeds, UK, 1974.
12. B. Jakobsson and L. Floberg, “The finite journal bearing considering vaporization,” Transactions of Chalmers University Technology, Göteborg, Sweden, vol. 190, pp. 1–119, 1957.
13. L. Floberg, “On journal bearing lubrication considering the tensile strength of the liquid lubricant,” Transactions of the Machine Elements Division, Lund Technical University, Lund, Sweden, pp. 1–26, 1973.
14. L. Floberg, “Cavitation boundary conditions with regard to the number of streamers and tensile strength of the liquid,” Cavitation and related phenomena in lubrication, Proceedings of the 1st Leeds–Lyon Symposium on Tribology, University of Leeds, UK, pp. 31–36 (Mechanical Engineering Publications Ltd, London, UK), 1974.
15. K.O. Olsson, “Cavitation in dynamically loaded bearings,” Transactions of Chalmers University Technology, Göteborg, Sweden, vol. 308, 1965.
16. M. Bao and H. Yang, “Squeeze film air damping in MEMS”, Sensors and Actuators A: Physical, vol. 136, pp. 3–27, 2014.