REFERENCES
- Lugt, P.M. (2013), Grease Lubrication in Rolling Bearings, John Wiley & Sons Ltd.: Chichester, UK.
- Carre, D.J., Bauer, R., and Fleischauer, P.D. (1983), “Chemical Analysis of Hydrocarbon Grease from Spin-Bearing Tests,” ASLE Transactions, 26, pp 475–480.
- Araki, C., Kanzaki, H., and Taguchi, T. (1995), “A Study on the Thermal Degradation of Lubricating Greases,” NLGI Spokesman, 59, pp 15–23.
- Cann, P.M. (2006), “Grease Degradation in a Bearing Simulation Device,” Tribology International, 39, pp 1698–1706.
- Ito, H., Tomaru, M., and Suzuki, T. (1988), “Physical and Chemical Aspects of Grease Deterioration in Sealed Ball Bearings,” Lubrication Engineering, 44(10), pp 872–879.
- Poon, S.Y. (1972), “Experimental Study of Grease in Elastohydrodynamic Lubrication,” Journal of Lubrication Technology, 94(1), pp 27–34.
- Kaneta, M., Ogata, T., Takubo, Y., and Naka, M. (2000), “Effects of a Thickener Structure on Grease Elastohydrodynamic Lubrication Films,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 214, pp 327–336.
- Moore, R.J. and Cravath, A.M. (1951), “Mechanical Breakdown of Soap-Base Greases,” Journal of Industrial & Engineering Chemistry, 43(12), pp 2892–2897.
- Moses, G.B. and Puddington, I.E. (1951), “The Rheological Properties of Some Soap–Oil Systems,” Canadian Journal of Chemistry, 29, pp 996–1009.
- Vold, M.J. (1956), “Colloid Structure in Lithium Stearate Greases,” Journal of Physical Chemistry, 60, pp 439–442.
- Mérieux, J.-S., Hurley, S., Lubrecht, A.A., and Cann, P.M. (2000), “Shear-Degradation of Grease and Base Oil Availability in Starved EHL Lubrication,” Proceedings of the 26th Leeds–Lyon Symposium on Tribology, Tribology Series, 38, pp 581–588.
- Lundberg, J. and Höglund, E. (2000), “A New Method for Determining the Mechanical Stability of Lubricating Greases,” Tribology International, 33, pp 217–223.
- Lundberg, J., Parida, A., and Soderholm, P. (2010), “Running Temperature and Mechanical Stability of Grease as Maintenance Parameters of Railway Bearings,” International Journal of Automation and Computing, 7(2), pp 160–166.
- Bondi, A., Cravath, A.M., and Moore, R.J. (1950), “Basic Factors Determining the Structure and Rheology of Lubricating Greases,” The Institute Spokesman, 13(12), pp 12–18.
- Bondi, A., Caruso, J.P., Fraser, H.M.., Smith, J.D.., Abrams, S.T., Cravath, A.M., Moore, R.J., Peterson, W.H., Smith, A.E., Stross, F.H., White, E.R., and Wilson, J.N. (1951), “Developments in the Field of Soda Base Greases,” 3rd World Petroleum Congress, May 28–June 6, The Hague, The Netherlands.
- Morales-Espejel, G.E., Lugt, P.M., Pasaribu, R., and Cen, H. (2014), “Film Thickness in Grease Lubricated Slow Rotating Rolling Bearings,” Tribology International, 74, pp 7–19.
- Kimura, Y., Endo, T., and Dong, D. (2010), “EHL with Grease at Low Speeds,” Advanced Tribology. Proceedings of CIST2008 & ITS-IFToMM2008, Luo, J., Meng, Y., Shao, T., and Zhao Q. (Eds.), pp 15–19, Springer: Dordrecht, The Netherlands.
- Cann, P.M. (1996), “Starvation and Reflow in a Grease-Lubricated Elastohydrodynamic Contact,” Tribology Transactions, 39(3), pp 698–704.
- Cann, P.M. (1996), “Understanding Grease Lubrication,” Tribology Series, 31, pp 573–581.
- Cann, P.M. and Spikes, H.A. (1992), “Film Thickness Measurements of Lubricating Greases under Normally Starved Conditions,” NLGI Spokesman, 56(2), pp 21–27.
- Cen, H., Lugt, P.M., and Morales-Espejel, G.E. (2014, “On the Film Thickness of Grease Lubricated Contacts at Low Speeds,” Tribology Transactions, 57(4), pp 668–678.
- Hurley, S. and Cann, P.M. (1999), “Grease Composition and Film Thickness in Rolling Contacts,” NLGI Spokesman, 63(4), pp 12–22.
- Lundberg, J. (2000), “Grease Lubrication of Roller Bearings in Railway Waggons. Part 1: Field Tests and Systematic Evaluation to Determine the Optimal Greases,” Industrial Lubrication and Tribology, 52(1), pp 36–43.
- Lundberg, J. and Berg, S. (2000), “Grease-Lubrication of Roller Bearings in Railway Waggons. Part 2: Laboratory Tests and Selection of Proper Test Methods,” Industrial Lubrication and Tribology, 52(2), pp 76–85.
- Bondi, A., Cravath, A.M., and Moore, R.J. (1950), “Basic Factors Determining the Structure and Rheology of Lubricating Greases,” The Institute Spokesman, 13(12), pp 12–18.
- Khonsari, M.M. and Booser, B.B. (2008), Applied Tribology: Bearing Design and Lubrication, 2nd ed. John Wiley & Songs: Chichester, West Sussex, England.
- Hamrock, B.J. (1994), Fundamentals of Fluid Film Lubrication, McGraw-Hill Book Co.: New York.
- Fein, R.S. (1997), “High Pressure Viscosity and EHL Pressure–Viscosity-Coefficients,” Tribology Data Handbook, Booser, E.R. (Ed.), pp 638–644, CRC Press: Boca Raton, FL.
- Hamrock, B.J. and Dowson, D. (1977), “Isothermal Elastohydrodynamic Lubrication of Point Contacts, Part III, Fully Flooded Results,” Journal of Lubrication Technology, 99, pp 264–276.