References
- C. M. McC. Ettles, (1980), “The Analysis and Performance of Pivoted Pad Journal Bearings Considering Thermal and Elastic Effects,” Journal of Lubrication Technology, 102(2), pp. 182–191.
- J. D. Knight and L. E. Barrett, (1988), “Analysis of Tilting Pad Journal Bearings With Heat Transfer Effects,” Journal of Tribology, 110(1), pp. 128–133.
- D. Brugier and M. T. Pascal, (1989), “Influence of Elastic Deformations of Turbo-Generator Tilting Pad Bearings on the Static Behavior and on the Dynamic Coefficients in Different Designs,” Journal of Tribology, 111(2), pp. 364–371.
- S. Taniguchi, T. Makino, K. Takeshita and T. Ichimura, (1990), “A Thermohydrbdynamic Analysis of Large Tilting-Pad Journal Bearing in Laminar and Turbulent Flow Regimes With Mixing,” Journal of Tribology, 112(3), pp. 542–548.
- M. Fillon, J. Bligoud and J. Frene, (1992), “Experimental Study of Tilting-Pad Journal Bearings—Comparison with Theoretical Thermoelastohydrodynamic Results,” Journal of Tribology, 114(3), pp. 579–587.
- P. Monmousseau, M. Fillon and J. Frene, (1997) “Transient Thermoelastohydrodynamic Study of Tilting-Pad Journal Bearings—Comparison Between Experimental Data and Theoretical Results,” Journal of Tribology, 119(3), pp. 401–407.
- W. Dmochowski, K. Brockwell, S. Decamillo and A. Mikula, (1993), “A Study of the Thermal Characteristics of the Leading Edge Groove and Conventional Tilting Pad Journal Bearings,” Journal of Tribology, 115(3), pp. 219–226.
- D. Sudheer Kumar Reddy, S. Swarnamani and B. S. Prabhu, (2000), “Thermoelastohydrodynamic Analysis of Tilting Pad Journal Bearing—Theory and Experiments,” Tribology Transactions, 43(1), pp. 82–90.
- K. Brockwell, S. Decamillo and W. Dmochowski, (2001), “Measured Temperature Characteristics of 152 mm Diameter Pivoted Shoe Journal Bearings with Flooded Lubrication,” Tribology Transactions, 44(4), pp. 543–550.
- K. Brockwell, W. Dmochowski and S. Decamillo, (2004), “An Investigation of the Steady-State Performance of a Pivoted Shoe Journal Bearing with ISO VG 32 and VG 68 Oils,” Tribology Transactions, 47(1), pp. 480–488.
- Q. Chang, P. Yang, Y. Meng and S. Wen, (2002), “Thermoelastohydrodynamic analysis of the static performance of tilting-pad journal bearings with the Newton–Raphson method,” Tribology international, 35(4), pp.225–234.
- K. D. Wygant, R. D. Flack and L. E. Barrett, (2004), “Measured Performance of Tilting-Pad Journal Bearings over a Range of Preloads—Part I: Static Operating Conditions,” Tribology Transactions, 47(4), pp. 576–584.
- F. Zhang, W. Ouyang, H. Hong, Y. Guan, X. Yuan and G. Dong, (2015), “Experimental study on pad temperature and film thickness of tilting-pad journal bearings with an elastic-pivot pad,” Tribology International, 88, pp. 228–235
- P. Monmousseau, M. Fillon and J. Frene, (1998), “Transient Thermoelastohydrodynamic Study of Tilting-Pad Journal Bearings—Application to Bearing Seizure,” Journal of Tribology, 120(2), pp.319–324
- K. Bang, J. Kim and Y. Cho, (2010), “Comparison of power loss and pad temperature for leading edge groove tilting pad journal bearings and conventional tilting pad journal bearings,” Tribology International, 43, pp.1287–1293
- J. Suh and A. Palazzolo, (2015), “Three-Dimensional Dynamic Model of TEHD Tilting-Pad Journal Bearing—Part I: Theoretical Modeling,” Journal of Tribology, 137(4), pp. 014703.
- J. Suh and A. Palazzolo, (2015), “Three-Dimensional Dynamic Model of TEHD Tilting-Pad Journal Bearing—Part II: Parametric Studies,” Journal of Tribology, 137(4), pp. 014704.
- J. K. Whalen, J. Allen, T. Hess and J. Craighton, (2012) “Babbitted Bearing Health Assessment,” Proceedings of the Forty First Turbomachinery Symposium, Houston, Texas.
- K. F. Dufrane, J.W. Kannel and T. H. McCloskey, (1983), “Wear of Steam Turbine Journal Bearings at Low Operating Speeds,” Journal of Lubrication Technology, 105(2), pp. 182–191.
- A. Kumar and S.S. Mishra, (1996), “Steady state analysis of noncircular worn journal bearings in nonlaminar lubrication regimes,” Tribology international, 29(6), pp.493–498.
- J. K. Scharrer, R. F. Hecht and R. I. Hibbs, (1991), “The Effects of Wear on the Rotordynamic Coefficients of a Hydrostatic Journal Bearing,” Journal of Tribology, 113(1), pp. 210–213.
- M. Fillon and J. Bouyer, (2004), “Thermohydrodynamic analysis of a worn plain journal bearing,” Tribology international, 37(4), pp.129–136.
- R.K. Awasthia, S. C. Sharma and S.C. Jain, (2007), “Performance of worn non-recessed hole-entry hybrid journal bearings,” Tribology international, 40(5), pp.717–734.
- J. Bouyer, M. Fillon and I. P. Danos, (2007), “Influence of Wear on the Behavior of a Two-Lobe Hydrodynamic Journal Bearing Subjected to Numerous Startups and Stops,” Journal of Tribology, 129(3), pp. 205–208.
- H. C. Ha, (2001), “Preload Effects of a Guide Bearing on the Metal Temperature and the Shaft Vibration” Journal of Tribology, 123(1), pp.144–150