This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Low Temperature Rheology of Soot-Laden, Heavy-Duty Engine Oils Using the Scanning Brookfield Technique
Technical Paper
2006-01-3352
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
The rheology and related low-temperature pumpability of engine oils used in modern heavy-duty diesel engines are markedly affected by the presence of high levels of soot. This paper presents results of studies of the rheological condition of highly soot-laden oils using two protocols of the Scanning Brookfield Technique as investigative tools.
Citation
Selby, T. and McGeehan, J., "Low Temperature Rheology of Soot-Laden, Heavy-Duty Engine Oils Using the Scanning Brookfield Technique," SAE Technical Paper 2006-01-3352, 2006, https://doi.org/10.4271/2006-01-3352.Also In
References
- Low-Temperature Pumpability Characteristics of Engine Oils in Full-Scale Engines ASTM DS 57 Committee D02, Subcommittee 07, Section C Data Analysis Panel, ASTM 1975
- Low Temperature Lubricant Rheology Measurement and Relevance to Engine Operation ASTM STP1143 Rhodes, R.B. ASTM 1992
- Oil Flow Studies at Low Temperatures in Modern Engines ASTM STP 1388 Shaub H. ASTM July 2000
- McGeehan, J.A. et al. “The Pivotal Role of Crankcase Oil in Preventing Soot Wear and Extending Filter Life in Low Emission Diesel Engines” SAE Technical Paper
- ASTM Standard Test Method ASTM D 5133 Low Temperature, Low Shear Rate, Viscosity/Temperature Dependence of Lubricating Oils Using a Temperature-Scanning Technique ASTM Annual Book of Standards 05 02 1045 1056 1990 2005
- ASTM Standard Test Method D 7110 Determining the Viscosity-Temperature Relationship of Used and Soot-Containing Engine Oils at Low Temperature to be published in the ASTM Annual Book of Standards 05 02 2005 1 7 2005
- ASTM Standard Test Method D 6896 Determination of Yield Stress and Apparent Viscosity of Used Engine Oils at Low Temperature ASTM Annual Book of Standards 05 02 904 911 2003
- MacCoull. N. Lubrication The Texas Co. New York, N.Y. 85 1921
- Walther, C. Erdol und Teer 4 510 1928
- Wright, W.A. “An Improved Viscosity-Temperature Chart for Hydrocarbons” Journal of Materials 4 1 19 27 1969
- Selby, T.W. “Use of the Scanning Brookfield Technique to Study the Critical Degree of Gelation of Lubricants at Low Temperatures” SAE Transactions, Journal of Fuels and Lubricants 100 Section 4 312 325 1991
- Selby, T.W. “The Scanning Brookfield Technique of Low-Temperature, Low-Shear Rheology - It's Inception, Development, and Applications” Low Temperature Lubricant Rheology Measurement and Relevance to Engine Operation ASTM STP1143 Rhodes R.B. ASTM 33 64 1992
- Selby, T.W. “Pumpability - Past Accomplishments; Present and Future Challenges” Oil Flow Studies at Low Temperatures in Modern Engines ASTM STP 1388 Shaub H. ASTM 99 121 2000
- Institute of Materials Engine Oil Database Published by the Institute of Materials Midland, Michigan
- McGeehan, J.A. Eiden, K.L. “Low Temperature Oil Pumpability in Emission Controlled Diesel Engines” SAE Technical Paper 2000-01-1989 SAE International Spring Fuels and Lubricants Meeting Paris, France June 19-22 2000
- Stehouwer, D.M. et al. “Sooted Diesel Engine Oil Pumpability Studies as the Basis of a New Heavy Duty Diesel Engine Oil Performance Specification” SAE Technical Paper 2002-01-1671 International Spring Fuels & Lubricants Meeting & Exhibition Reno, Nevada May 6 9 2002
- Gailbraith, R.M. May, C.J. “Cold Start and Pumpability Study of Fresh and Highly Sooted Engine Oils in 1999 Heavy Duty Diesel Emission Engines” SAE Technical Paper 2003-01-3224 Power Train & Fluid Systems Conference & Exhibition Pittsburgh, Pennsylvania October 27-30 2003
- Low Temperature Lubricant Rheology Measurement and Relevance to Engine Operation ASTM STP1143 Rhodes R.B. ASTM 1992
- Stambaugh, R.L. O'Mara, J.H. “Low Temperature Flow Properties of Engine Oils” SAE Technical Paper Series, # 820506 SAE International Congress & Exposition Detroit, Michigan February 1982
- Selby, T.W. “Low Temperature Flow Properties of Engine Oils” SAE Technical Paper Series, # 820506 SAE International Congress & Exposition Detroit, Michigan February 1982
- Selby, T.W. “The Scanning Brookfield Technique of Low-Temperature, Low-Shear Rheology - It's Inception, Development, and Applications” Low Temperature Lubricant Rheology Measurement and Relevance to Engine Operation ASTM STP1143 Rhodes R.B. ASTM 33 64 1992
- Selby, T.W. “Pumpability - Past Accomplishments; Present and Future Challenges” Oil Flow Studies at Low Temperatures in Modern Engines ASTM STP 1388 Shaub H. ASTM 99 121 2000
- ASTM Standard Test Method D 5133 Low Temperature, Low Shear Rate, Viscosity-Temperature Dependence of Lubricating Oils Using a Temperature-Scanning Technique ASTM Annual Book of Standards 05 02 1045 1056 1990 2005
- MacCoull, N. Lubrication The Texas Co. New York, N.Y. 85 1921
- Walther, C. Erdol und Teer 4 510 1928
- Wright, W.A. “An Improved Viscosity-Temperature Chart for Hydrocarbons” Journal of Materials 4 1 19 27 1969
- Selby, T.W. “Use of the Scanning Brookfield Technique to Study the Critical Degree of Gelation of Lubricants at Low Temperatures” SAE Transactions, Journal of Fuels and Lubricants 100 Section 4 312 325 1991
- Selby, T.W. “The Scanning Brookfield Technique of Low-Temperature, Low-Shear Rheology - It's Inception, Development, and Applications” Low Temperature Lubricant Rheology Measurement and Relevance to Engine Operation ASTM STP1143 Rhodes R.B. ASTM 33 64 1992
- Selby, T.W. “Pumpability - Past Accomplishments; Present and Future Challenges” Oil Flow Studies at Low Temperatures in Modern Engines ASTM STP1388 Shaub H. ASTM 99 121 2000
- Institute of Materials Engine Oil Database Published by the Institute of Materials Midland, Michigan