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Tribology Transactions Volume 35, 1992 - Issue 1
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Original Articles

Notes on Transient THD Effects in a Lubricating Film

M. M. Khonsari Department of Mechanical Engineering, University of Pittsburgh, Pittsburgh, Pennsylvania
&
S. H. Wang Department of Mechanical Engineering, University of Pittsburgh, Pittsburgh, Pennsylvania
Pages 177-183 | Published online: 25 Mar 2008

Citations (40)

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Read on this site (7)

Jintai Mi & Yonggang Meng. (2016) THD Analysis of Rolling Piston and Journal Bearings in Rotary Compressors. Tribology Transactions 59:2, pages 195-207.
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Shaoxian Bai, Xudong Peng, Yonggang Meng & Shizhu Wen. (2012) Modeling of Gas Thermal Effect Based on Energy Equipartition Principle. Tribology Transactions 55:6, pages 752-761.
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Miles Zengeya, Mohamed Gadala & Guus Segal. (2006) Three-Dimensional Modeling of Thermohydrodynamic Lubrication in Slider Bearings Using Streamline Upwind Petrov-Galerkin Method. Numerical Heat Transfer, Part A: Applications 49:10, pages 947-968.
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Aurelian Fatu, Mohamed Hajjam & Dominique Bonneau. (2005) A fast thermoelastohydrodynamic model for dynamically loaded journal bearings behaviour analysis. Revue Européenne des Éléments Finis 14:2-3, pages 237-253.
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L.A. Branagan & L.E. Barrett. (1998) Influence of Cross-Film Viscosity Variation on Conduction Effects in Journal Bearings. Tribology Transactions 41:4, pages 513-518.
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J.Y. Jang, M.M. Khonsari & M.D. Pascovici. (1998) Modeling Aspects of a Rate-Controlled Seizure in an Unloaded Journal Bearing. Tribology Transactions 41:4, pages 481-488.
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RohitS. Paranjpe. (1996) A Study of Dynamically Loaded Engine Bearings Using a Transient Thermohydrodynamic Analysis. Tribology Transactions 39:3, pages 636-644.
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Articles from other publishers (33)

Kiyoshi Hatakenaka. (2023) Time History of Maximum Bearing Temperature Based on a Simplified Thermohydrodynamic Lubrication Theory. Tribology Online 18:2, pages 53-63.
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Davoud Alibeyki & Reza Mehryar. (2020) Heat flux estimation in journal bearings using inverse heat transfer method. Heat and Mass Transfer 57:4, pages 605-615.
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Yonggang Meng & Jintai Mi. 2019. Positive Displacement Machines. Positive Displacement Machines 225 261 .
D. Sivakumar, Suresh Nagesh & K. N. Seetharamu. 2019. Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics. Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics 303 308 .
Maximilian Prölß, Hubert Schwarze, Thomas Hagemann, Philipp Zemella & Philipp Winking. (2018) Theoretical and Experimental Investigations on Transient Run-Up Procedures of Journal Bearings Including Mixed Friction Conditions. Lubricants 6:4, pages 105.
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Michael M. Khonsari & E. Richard Booser. 2017. Applied Tribology: Bearing Design and Lubrication. Applied Tribology: Bearing Design and Lubrication 255 328 .
Per Johansen, Daniel B. Roemer, Torben O. Andersen & Henrik C. Pedersen. (2014) Asymptotic Approximation of Laminar Lubrication Thermal Field at Low Reduced Peclet and Brinkman Number. Journal of Tribology 136:4.
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Kadda Mehala, Nadia Bendaoud & Abdelkader Youcefi. (2014) Evolution of the lubrication regime of a cylindrical journal bearing in the starting phase. Industrial Lubrication and Tribology 66:3, pages 379-386.
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Jian Jin, Guoxian Zhang & Xiaojing Wang. 2010. Advanced Tribology. Advanced Tribology 116 119 .
Daquan LiuWen ZhangTiesheng Zheng. (2008) A Simplified One-Dimensional Thermal Model for Journal Bearings. Journal of Tribology 130:1.
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Aurelian Fatu, Mohamed Hajjam & Dominique Bonneau. (2006) A New Model of Thermoelastohydrodynamic Lubrication in Dynamically Loaded Journal Bearings. Journal of Tribology 128:1, pages 85-95.
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Chang Hou Lu, Shi Jin Chen & C.B. Jin. (2004) Finite Element Analysis on Novel High-Speed Hybrid Bearing. Key Engineering Materials 259-260, pages 834-838.
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Yan-li FU, Xi-zhi MA & Jun ZHU. (2003) A Transient Thermohydrodynamics Study of Plain Journal Bearings Using Newton–Raphson Method Analysis. Chinese Journal of Aeronautics 16:4, pages 233-240.
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Chao Zhang. (2002) TEHD Behavior of Non-Newtonian Dynamically Loaded Journal Bearings in Mixed Lubrication for Direct Problem. Journal of Tribology 124:1, pages 178-185.
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B.V. Rathish Kumar, P.Srinivasa Rao & Prawal Sinha. (2001) A numerical study of performance of a slider bearing with heat conduction to the pad. Finite Elements in Analysis and Design 37:6-7, pages 533-547.
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H. Hirani, K. Athre & S. Biswas. (2000) A Hybrid Solution Scheme for Performance Evaluation of Crankshaft Bearings. Journal of Tribology 122:4, pages 733-740.
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Chao Zhang, Zixia Yi & Zhiming Zhang. (2000) THD Analysis of High Speed Heavily Loaded Journal Bearings Including Thermal Deformation, Mass Conserving Cavitation, and Turbulent Effects. Journal of Tribology 122:3, pages 597-602.
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X.K Li, A.R Davies & T.N Phillips. (2000) A transient thermal analysis for dynamically loaded bearings. Computers & Fluids 29:7, pages 749-790.
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Bogdan-Radu Kucinschi, Michel Fillon, Jean Fre^ne & Mircea D. Pascovici. (2000) A Transient Thermoelastohydrodynamic Study of Steadily Loaded Plain Journal Bearings Using Finite Element Method Analysis. Journal of Tribology 122:1, pages 219-226.
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S. Piffeteau, D. Souchet & D. Bonneau. (2000) Influence of Thermal and Elastic Deformations on Connecting-Rod Big End Bearing Lubrication Under Dynamic Loading. Journal of Tribology 122:1, pages 181-191.
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Sergei B. Glavatskikh. 2000. Thinning Films and Tribological Interfaces, Proceedings of the 26th Leeds-Lyon Symposium on Tribology. Thinning Films and Tribological Interfaces, Proceedings of the 26th Leeds-Lyon Symposium on Tribology 229 240 .
Myung-Rae Cho, Dong-Chul Han & Jae-Kwon Choi. (1999) Oil Film Thickness in Engine Connecting-Rod Bearing With Consideration of Thermal Effects: Comparison Between Theory and Experiment. Journal of Tribology 121:4, pages 901-907.
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B. Kucinschi & M. Fillon. (1999) An Experimental Study of Transient Thermal Effects in a Plain Journal Bearing. Journal of Tribology 121:2, pages 327-332.
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R. Gomiciaga & P. S. Keogh. (1999) Orbit Induced Journal Temperature Variation in Hydrodynamic Bearings. Journal of Tribology 121:1, pages 77-84.
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J. Y. Jang, M. M. Khonsari & M. D. Pascovici. (1998) Thermohydrodynamic Seizure: Experimental and Theoretical Analysis. Journal of Tribology 120:1, pages 8-15.
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J. Y. Jang & M. M. Khonsari. (1997) Thermohydrodynamic Design Charts for Slider Bearings. Journal of Tribology 119:4, pages 733-740.
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P. S. Keogh, R. Gomiciaga & M. M. Khonsari. (1997) CFD Based Design Techniques for Thermal Prediction in a Generic Two-Axial Groove Hydrodynamic Journal Bearing. Journal of Tribology 119:3, pages 428-435.
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P. Monmousseau, M. Fillon & J. Freˆne. (1997) Transient Thermoelastohydrodynamic Study of Tilting-Pad Journal Bearings—Comparison Between Experimental Data and Theoretical Results. Journal of Tribology 119:3, pages 401-407.
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Michel Fillon, Pascal Monmousseau & Jean Frêne. (1997) Thermoélastohydrodynamique des paliers à patins oscillants en régime transitoire. Revue Générale de Thermique 36:6, pages 433-441.
Crossref
D. J. Radakovic & M. M. Khonsari. (1997) Heat Transfer in a Thin-Film Flow in the Presence of Squeeze and Shear Thinning: Application to Piston Rings. Journal of Heat Transfer 119:2, pages 249-257.
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M. M. Khonsari, J. Y. Jang & M. Fillon. (1996) On the Generalization of Thermohydrodynamic Analyses for Journal Bearings. Journal of Tribology 118:3, pages 571-579.
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R. K. Gadangi, A. B. Palazzolo & J. Kim. (1996) Transient Analysis of Plain and Tilt Pad Journal Bearings Including Fluid Film Temperature Effects. Journal of Tribology 118:2, pages 423-430.
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Rohit S. Paranjpe & Taeyoung Han. (1995) A Transient Thermohydrodynamic Analysis Including Mass Conserving Cavitation for Dynamically Loaded Journal Bearings. Journal of Tribology 117:3, pages 369-378.
Crossref

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