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A S L E Transactions Volume 23, 1980 - Issue 4
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Original Articles

Viscosity-Pressure Correlation of Liquids

B. Y. C. So Argonne National Laboratory, Argonne, Illinois, 60439
&
E. E. Klaus The Pennsylvania State University, University Park, Pennsylvania, 16802
Pages 409-421 | Published online: 25 Mar 2008

Citations (65)

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M. Ingram, I. Roots, T. Welham, M. Smeeth & C. Hamer. (2022) Designing a Simple Test to Measure and Rate Lubricant-Controlled Friction Reduction. Tribology Transactions 65:6, pages 1041-1058.
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Luiz C. V. Castro, Toseli D. F. Matos, Sylvio J. R. D. Oliveira & Nísio. D. C. L. Brum. (2021) Assessment of Thermal Effects on Mixed Elastohydrodynamic Lubrication Line Contact by Outlet Lubricant Temperature. Tribology Transactions 64:1, pages 126-142.
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MihaiB. Dobrica, Michel Fillon & Patrick Maspeyrot. (2008) Influence of Mixed-Lubrication and Rough Elastic-Plastic Contact on the Performance of Small Fluid Film Bearings. Tribology Transactions 51:6, pages 699-717.
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A.R. Lafountain, G.J. Johnston & H.A. Spikes. (2001) The Elastohydrodynamic Traction of Synthetic Base Oil Blends. Tribology Transactions 44:4, pages 648-656.
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PH. Vergne. (1992) Pressure viscosity behavior of various fluids. High Pressure Research 8:1-3, pages 451-454.
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H.S. Song, E.E. Klaus, J.L. Duda & C.S. Wu. (1992) A Simulation Study of the Influence of Pressure and Temperature on the Viscosity of Polymer Modified Lubricating Oils at High Shear Rates. Tribology Transactions 35:3, pages 397-404.
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M.T. Benchaita, R.D. Schwartz & F.E. Lockwood. (1990) Separation and Tribological Evaluation of Paraffinic Base Stocks. Tribology Transactions 33:1, pages 85-95.
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Masabumi Masuko, Noriyuki Naganuma & Heihachiro Okabe. (1990) Acceleration of the Thermal Reaction of Sulfur with Steel Surface under Increased Pressure. Tribology Transactions 33:1, pages 76-84.
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LowrieB. Sargent$suffix/text()$suffix/text(). (1983) Pressure-Viscosity Coefficients of Liquid Lubricants. A S L E Transactions 26:1, pages 1-10.
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W.G. Johnston. (1981) A Method to Calculate the Pressure-Viscosity Coefficient from Bulk Properties of Lubricants. A S L E Transactions 24:2, pages 232-238.
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Abel G.M. Ferreira, Nieves M. Carmen Talvera-Prieto, António A. Portugal & Rui J. Moreira. (2021) REVIEW: Models for predicting viscosities of biodiesel fuels over extended ranges of temperature and pressure. Fuel 287, pages 119544.
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Josef Voldřich & Štefan Morávka. A study of hydrodynamically lubricated contact between axial rings of a high-speed gearbox. A study of hydrodynamically lubricated contact between axial rings of a high-speed gearbox.
Edoardo Goti, Luigi Mazza, Andrea Mura & Bin Zhang. (2020) An early method for the technical diagnosis of pin-on-disk tribometers by reference friction measurements in EHL conditions. Measurement 166, pages 108169.
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George E. Totten, Rajesh J. Shah & David R. ForesterWei Dai, Huaping Xiao, George E. Totten & Hong Liang. 2019. Fuels and Lubricants Handbook: Technology, Properties, Performance, and Testing, 2nd Edition. Fuels and Lubricants Handbook: Technology, Properties, Performance, and Testing, 2nd Edition 1565 1630 .
George E. Totten, Rajesh J. Shah & David R. ForesterKenneth O. Henderson. 2019. Fuels and Lubricants Handbook: Technology, Properties, Performance, and Testing, 2nd Edition. Fuels and Lubricants Handbook: Technology, Properties, Performance, and Testing, 2nd Edition 1485 1517 .
Matthew David Marko. (2019) The Impact of Lubricant Film Thickness and Ball Bearings Failures. Lubricants 7:6, pages 48.
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V. Zin, F. Agresti, S. Barison, L. Litti, L. Fedele, M. Meneghetti & M. Fabrizio. (2018) Effect of external magnetic field on tribological properties of goethite (a-FeOOH) based nanofluids. Tribology International 127, pages 341-350.
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Girma Biresaw. (2018) Biobased Polyalphaolefin Base Oil: Chemical, Physical, and Tribological Properties. Tribology Letters 66:2.
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Matthew David Marko, Jonathan P. Kyle, Yuanyuan Sabrina Wang & Elon J. Terrell. (2017) Tribological investigations of the load, temperature, and time dependence of wear in sliding contact. PLOS ONE 12:4, pages e0175198.
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Jie Zhang, Andrew Tan & Hugh Spikes. (2016) Effect of Base Oil Structure on Elastohydrodynamic Friction. Tribology Letters 65:1.
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Mingming Deng, Jinjin Li, Chenhui Zhang, Jing Ren, Ningning Zhou & Jianbin Luo. (2016) Investigation of running-in process in water-based lubrication aimed at achieving super-low friction. Tribology International 102, pages 257-264.
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Matthew D. Marko, Jonathan P. Kyle, Yuanyuan Wang, Blake Branson & Elon J. Terrell. (2016) Numerical and Experimental Tribological Investigations of Diamond Nanoparticles. Journal of Tribology 138:3.
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V. Zin, S. Barison, F. Agresti, L. Colla, C. Pagura & M. Fabrizio. (2016) Improved tribological and thermal properties of lubricants by graphene based nano-additives. RSC Advances 6:64, pages 59477-59486.
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Uma Shantini Ramasamy, Scott Bair & Ashlie Martini. (2015) Predicting Pressure–Viscosity Behavior from Ambient Viscosity and Compressibility: Challenges and Opportunities. Tribology Letters 57:2.
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Girma Biresaw, Brajendra K. Sharma, Grigor B. Bantchev, Todd L. Kurth, Kenneth M. Doll, Sevim Z. Erhan, Bidhya Kunwar & John W. Scott. (2014) Elastohydrodynamic Properties of Biobased Heat-Bodied Oils. Industrial & Engineering Chemistry Research 53:42, pages 16183-16195.
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Zhigang Wang, Sheng-Li Chen, Jianing Pei, Aicheng Chen, Junhui Zhang, Zhiming Xu & Jay B. Benziger. (2014) Insight into the intraparticle diffusion of residue oil components in catalysts during hydrodesulfurization reaction. AIChE Journal 60:9, pages 3267-3275.
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. 2014. Engineering Tribology. Engineering Tribology 11 50 .
. 2014. Primer on Flat Rolling. Primer on Flat Rolling 389 407 .
Scott Bair. (2013) Comments on “Pressure–Viscosity Coefficient of Vegetable Oils” by Biresaw and Bantchev. Tribology Letters 52:2, pages 351-353.
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Girma Biresaw & Grigor B. Bantchev. (2013) Pressure Viscosity Coefficient of Vegetable Oils. Tribology Letters 49:3, pages 501-512.
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T. Cousseau, M. Björling, B. Graça, A. Campos, J. Seabra & R. Larsson. (2012) Film thickness in a ball-on-disc contact lubricated with greases, bleed oils and base oils. Tribology International 53, pages 53-60.
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Rinku Mittal, Ramesh K. Singh & Suhas S. Joshi. (2012) Elastohydrodynamic Lubrication Modeling of Hydrodynamic Nanopolishing Process. Journal of Manufacturing Science and Engineering 134:4.
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Bernard Kinker. 2011. Handbook of Hydraulic Fluid Technology, Second Edition. Handbook of Hydraulic Fluid Technology, Second Edition 181 218 .
Toshi Kazama & George Totten. 2011. Handbook of Hydraulic Fluid Technology, Second Edition. Handbook of Hydraulic Fluid Technology, Second Edition 103 179 .
Sobahan Mia & Nobuyoshi Ohno. (2009) Prediction of pressure-viscosity coefficient of lubricating oils based on sound velocity. Lubrication Science 21:9, pages 343-354.
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Shinichiro Hayashi, Kazuo Masuhara, Sobahan Mia, Shigeki Morita & Nobuyoshi Ohno. (2008) Prediction of Pressure-Viscosity Coefficient of Mixtures. Tribology Online 3:2, pages 86-89.
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. 2007. Primer on Flat Rolling. Primer on Flat Rolling 313 333 .
H. A. Spikes. (2006) Sixty years of EHL. Lubrication Science 18:4, pages 265-291.
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J. Kosanov, J.G. Lenard, J. Uhrig & B. Wallfarth. (2006) The effect of lubricant additives on the coefficient of friction in the flat-die test. Materials Science and Engineering: A 427:1-2, pages 274-281.
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Gwidon W. Stachowiak & Andrew W. Batchelor. 2006. Engineering Tribology. Engineering Tribology 11 50 .
Brajendra K. Sharma & Arthur J. Stipanovic. (2003) Pulsed Field Gradient NMR Spectroscopy: Applications in Determining the Pressure Viscosity Coefficient and Low-Temperature Flow Properties of Lubricant Base Oils. Industrial & Engineering Chemistry Research 42:7, pages 1522-1529.
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John g. Lenard. 2002. Metal Forming Science and Practice. Metal Forming Science and Practice 85 114 .
Yasuhiro Jimbo & Akira Azushima. (2001) Effect of carbide properties of roll materials on lubricity in cold sheet rolling of low-carbon steel. International Journal of Machine Tools and Manufacture 41:3, pages 347-360.
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Takumaru Sagawa, Kiyotaka Nakamura, William A. Buscher & Larry M. Bendele. Development of the Sequence IVA Valve Train Wear Lubricant Test: Part 1. Development of the Sequence IVA Valve Train Wear Lubricant Test: Part 1.
Campbell McConnell & J.G Lenard. (2000) Friction in cold rolling of a low carbon steel with lubricants. Journal of Materials Processing Technology 99:1-3, pages 86-93.
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R.S.A. Grieve & H.A. Spikes. 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 511 522 .
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Jen Fin Lin, Chau Chang Chou & San Tong Chen. (1999) Models for Temperature-Kinetic Aspect of Friction and Wear in Oil Lubrication. Journal of Tribology 121:4, pages 774-786.
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C. C. Chou & J. F. Lin. (2005) Tribological effects of roughness and running-in on oil-lubricated line contacts. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 211:3, pages 209-222.
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M. Akei, K. Mizuhara, T. Taki & T. Yamamoto. (1996) Evaluation of film-forming capability of refrigeration lubricants in pressurized refrigerant atmosphere. Wear 196:1-2, pages 180-187.
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M. T. Benchaita & F. E. Lockwood. (2006) Reliable model of lubricant‐related friction in internal combustion engines. Lubrication Science 5:4, pages 259-281.
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J.L. Duda, E.E. Klaus, S.C. Lin & F.L. Lee. 1987. Fluid Film Lubrication – Osborne Reynolds Centenary, Proceedings of the 13th Leeds–Lyon Symposium on Tribology, held in Bodington Hall, The University of Leeds. Fluid Film Lubrication – Osborne Reynolds Centenary, Proceedings of the 13th Leeds–Lyon Symposium on Tribology, held in Bodington Hall, The University of Leeds 325 332 .
E. Earl Graham, E. E. Klaus & R. S. Badgley. Determination of the Viscosity-Shear Behavior of Polymer Containing Fluids Using a Single Pass, High-Shear Capillary Viscometer. Determination of the Viscosity-Shear Behavior of Polymer Containing Fluids Using a Single Pass, High-Shear Capillary Viscometer.
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