References
- Shen, Y., Hu, P., Jin, S. B., and Wei, Y. S. (2016), “Design of Novel Shaftless Pump–Jet Propulsor for Multi-Purpose Long Range and High Speed Autonomous Underwater Vehicle,” IEEE Transactions on Magnetic, 52(7), pp 1–4.
- Yan, X. P., Liang, X. X., Wu, O. Y., and Liu, Z. L. (2017), “A Review of Progress and Applications of Ship Shaft-Less Rim-Driven Thrusters,” Ocean Engineering, 144, pp 142–156.
- Wei, Y. S. and Wang, Y. S. (2013), “Unsteady Hydrodynamics of Blade Forces and Acoustic Responses of a Model Scaled Submarine Excited by Propeller’s Thrust and Side-Forces,” Journal of Sound and Vibration, 332, pp 2038–2056.
- Wang, Y., Wang, Q. J., and Li, C. (2002), “Mixed Lubrication of Coupled Journal–Thrust Bearing Systems,” Technology Science Press, 3(4), pp 517–530.
- Wang, Y., Wang, Q. J., and Li, C. (2003), “Mixed Lubrication of Coupled Journal–Thrust-Bearing Systems Including Mass Conserving Cavitation,” Journal of Tribology, 125, pp 747–755.
- Wang, Y., Wang, Q. J., and Lin, C. (2006), “A Mixed-EHL Analysis of Effects of Misalignment and Elastic Deformations on the Performance of a Coupled Journal–Thrust System,” Tribology International, 39(4), pp 281–289.
- Xiang, G., Han, Y. F., Chen, R. X., and Wang, J. X. (2019), ⋖A Numerical Method to Investigate the Mixed Lubrication Performances of Journal–Thrust Coupled Bearings,” Industrial Lubrication and Tribology, 71(9), pp 1099–1107.
- McKee, S. A. and McKee, T. R. (1932), “Pressure Distribution in Oil Films of Journal Bearings,” Tribology Transactions, 54, pp 149–165.
- Sharma, S. C., Jain, S. C., and Nagaraju, T. (2002), “Combined Influence of Journal Misalignment and Surface Roughness on the Performance of an Orifice Compensated Non-Recessed Hybrid Journal Bearing,” Tribology Transactions, 45(4), pp 457–463.
- Elsharkawy, A. A. (2003), “Effects of Misalignment on the Performance of Flexible Porous Journal Bearings,” Tribology Transactions, 46(1), pp 119–127.
- Pierre, I., Bouyer, J., and Fillon, M. (2004), “Thermohydrodynamic Behavior of Misaligned Plain Journal Bearings: Theoretical and Experimental Approaches,” Tribology Transactions, 47(4), pp 594–604.
- Gu, T., Wang, Q. J., Xiong, S. W., and Liu, Z. (2019), “Profile Design for Misaligned Journal Bearings Subjected to Transient Mixed Lubrication,” Journal of Tribology, 141, pp 071701-1–071701-15.
- Smalley, A. J. (1969), “Static and Dynamic Characteristics of the Gas-Lubricated Spiral-Grooved Spool Bearing for Motion in the Axial Direction,” Journal of Tribology, 91, pp 104–112.
- Wirsing, T. (2008), Effect of Axial Oscillation on Performance of Hydrodynamic Journal Bearings, Ph.D. Thesis, Cleveland State University.
- Han, Y., Chan, C., Wang, Z., and Shi, F. H. (2015), “Effects of Shaft Axial Motion and Misalignment on the Lubrication Performance of Journal Bearings via a Fast Mixed EHL Computing Technology,” Tribology Transactions, 58, pp 247–259.
- Han, Y., Wang, J., Zhou, G., and Ke, X. (2016), “Micro-Bottom Shape Effects on the Misaligned Herringbone Grooved Axial Piston Bearing with a New Parallel Algorithm,” Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 231(5), pp 637–654.
- Xiang, G., Han, Y. F., Wang, J. X., and Wang, J. F. (2019), “A Transient Hydrodynamic Lubrication Comparative Analysis for Misaligned Micro-Grooved Bearing Considering Axial Reciprocating Movement of Shaft,” Tribology International, 132, pp 11–23.
- Li, B., Sun, J., Zhu, S. Y., and Fu, Y. Y. (2019), “Thermohydrodynamic Lubrication Analysis of Misaligned Journal Bearing Considering the Axial Movement of Journal,” Tribology International, 135, pp 397–407.
- Sun, F. X., Zhang, X. B., Wei, Y. S., and Wang, X. (2020), “Stability Analysis of Rubber-Supported Thrust Bearing in a Rotor–Bearing System Used in Marine Thrusters under Disturbing Moments,” Tribology International, 151, pp 106356.
- Gong, J. Y., Jin, Y., Liu, Z. L., and Jiang, H. (2019), “Study on Influencing Factors of Lubrication Performance of Water-Lubricated Micro-Groove Bearing,” Tribology International, 129, pp 390–397.
- Xiong, S. W. and Wang, Q. J. (2012), “Steady-State Hydrodynamic Lubrication Modeled with the Payvar-Salant Mass Conservation Model,” Journal of Tribology, 134, pp 0317031–03170316.