References
- Liu, M., Zhu, C., Liu, H., Ding, H., and Sun, Z. (2014), “Effects of Working Conditions on TEHL Performance of a Helical Gear Pair with Non-Newtonian Fluids,” Journal of Tribology, 136(2), p 021502.
- Liu, H., Mao, K., Zhu, C., Chen, S., Xu, X., and Liu, M. (2013), “Spur Gear Lubrication Analysis with Dynamic Loads,” Tribology Transactions, 56, pp 41–48.
- Liu, H., Mao, K., Zhu, C., and Xu, X. (2012), “Mixed Lubricated Line Contact Analysis for Spur Gears Using a Deterministic Model,” Journal of Tribology, 134, p 021501–7.
- Liu, G. and Parker, R. G. (2009), “Impact of Tooth Friction and Its Bending Effect on Gear Dynamics,” Journal of Sound and Vibration, 320(4–5), pp 1039–1063.
- Wolveridge, P. E., Baglin, K. P., and Archard, J. F. (1970), “The Starved Lubrication of Cylinders in Line Contact,” Proceedings of the Institution of Mechanical Engineers, 185(1), pp 1159–1169.
- Wedeven, L. D., Evans, D., and Cameron, A. (1971), “Optical Analysis of Ball Bearing Starvation,” Journal of Tribology, 93(3), pp 349–361.
- Hamrock, B. J. and Dowson, D. (1979), “Elastohydrodynamic Lubrication of Elliptical Contacts for Materials of Low Elastic Modulus: II—Starved Conjunction,” Journal of Lubrication Technology, 101(1), pp 92–98.
- Tipei, N. (1968), “Boundary Conditions of a Viscous Flow between Surfaces with Rolling and Sliding Motion,” Journal of Lubrication Technology, 90(1), pp 254–261.
- Birkhoff, G. and Hays, D. (1963), “Free Boundaries in Partial Lubrication,” Journal of Mathematics and Physics, 42(1), pp 126–138.
- Mohammadpour, M., Johns-Rahnejat, P. M., Rahnejat, H., and Gohar, R. (2013), “Boundary Conditions for Elastohydrodynamics of Circular Point Contacts,” Tribology Letters, 53(1), pp 107–118.
- Mohammadpour, M., Theodossiades, S., and Rahnejat, H. (2014), “Transient Mixed Non-Newtonian Thermo-Elastohydrodynamics of Vehicle Differential Hypoid Gears with Starved Partial Counter-Flow Inlet Boundary,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 228(10), pp 1159–1173.
- Elrod, H. G. (1981), “A Cavitation Algorithm,” Journal of Tribology, 103(3), pp 350–354.
- Lubrecht, T., Mazuyer, D., and Cann, P. (2001), “Starved Elastohydrodynamic Lubrication Theory: Application to Emulsions and Greases,” Comptes Rendus de l'Académie des Sciences - Series IV - Physics, 2(5), pp 717–728.
- Damiens, B., Venner, C. H., Cann, P. M. E., and Lubrecht, A. A. (2004), “Starved Lubrication of Elliptical EHD Contacts,” Journal of Tribology, 126(1), pp 105–111.
- Cann, P. M. E., Damiens, B., and Lubrecht, A. A. (2004), “The Transition between Fully Flooded and Starved Regimes in EHL,” Tribology International, 37(10), pp 859–864.
- Yang, P., Wang, J., and Kaneta, M. (2006), “Thermal and Non-Newtonian Numerical Analyses for Starved EHL Line Contacts,” Journal of Tribology, 128(2), pp 282–290.
- Yin, C., Yang, P., Tan, H., and Wang, J. (2009), “Thermal Elastohydrodynamic Lubrication of Starved Elliptical Contacts,” Tribology International, 42, pp 964–974.
- Wang, W. Z., Li, S., Shen, D., Zhang, S., and Hu, Y. Z. (2012), “A Mixed Lubrication Model with Consideration of Starvation and Interasperity Cavitations,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 226(12), pp 1023–1038.
- Mihailidis, A., Agouridas, K., and Panagiotidis, K. (2013), “Non-Newtonian Starved Thermal-Elastohydrodynamic Lubrication of Finite Line Contacts,” Tribology Transactions, 56(1), pp 88–100.
- Svoboda, P., Košt’ál, D., Popelka, M., and Křupka, I. (2013), “The Experimental Study of Transition between Fully Flooded and Starved Regime in EHL Contact,” Engineering Mechanics, 20(1), pp 13–25.
- Parinam, A. and Karan, R. (2014), “Analysis of Starved EHL Line Contacts for Lubricants with Linear Pressure Viscosity Dependence,” International Journal of Advancements in Technology, 5(1), pp 11–27.
- Zhu, C., Sun, Z., Liu, H., Song, C., and Gu, Z. (2015), “Effect of Tooth Profile Modification on Lubrication Performance of a Cycloid Drive,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 229(7), pp 785–794.
- Qian, X. Y. (2012), “The Multi-Objective Optimization for Cycloidal Gear Drive Based on the Elastohydrodynamic Lubrication Theory,” Advanced Materials Research, 591–593, pp 697–703.
- Guan, T. and Shi, X. (2002), “Force Analysis Considering Manufacture Error of Pin-Hole-Output Mechanism in Cycloid Drive,” Chinese Journal of Mechanical Engineering, 2, pp 142–144.
- Liu, X., Jiang, M., Yang, P., and Kaneta, M. (2005), “Non-Newtonian Thermal Analyses of Point EHL Contacts Using the Eyring Model,” Journal of Tribology, 127(1), pp 70–81.
- Li, S. and Kahraman, A. (2011), “A Method to Derive Friction and Rolling Power Loss Formulae for Mixed Elastohydrodynamic Lubrication,” Journal of Advanced Mechanical Design Systems and Manufacturing, 5(4), pp 252–263.
- Roelands, C. F. A. (1966), Correlational Aspects of the Viscosity–Temperature–Pressure Relationship of Lubricating Oils, Druk. U.R.B.: Groningen, The Netherlands.
- Dowson, D. and Higginson, G. R. (1977), Elastohydrodynamic Lubrication, Pergamon Press, Oxford, UK.
- Yang, P. and Wen, S. (1990), “A Generalized Reynolds Equation for Non-Newtonian Thermal Elastohydrodynamic Lubrication,” Journal of Tribology, 112, pp 631–636.
- Zhu, C., Liu, M., Liu, H., Xu, X., and Liu, L. (2012), “A Thermal Finite Line Contact EHL Model of a Helical Gear Pair,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 227(4), pp 299–309.
- Liu, Y. C., Wang, Q. J., Wang, W. Z., Hu, Y. Z., and Zhu, D. (2006), “Effects of Differential Scheme and Mesh Density on EHL Film Thickness in Point Contacts,” Journal of Tribology, 128, pp 641–653.
- Wijnant, Y. H. (1998), Contact Dynamics in the Field of Elastohydrodynamic Lubrication, PhD thesis, University of Twente, Enschede, The Netherlands.