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Tribology Transactions Volume 46, 2003 - Issue 1
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Original Articles

Effect of Soot Properties in Diesel Engine Oils on Frictional Characteristics

Congmin Liu TonenGeneral Sekiyu K.K., Saitama, 356-8505, Japan
,
Shuzo Nemoto TonenGeneral Sekiyu K.K., Saitama, 356-8505, Japan
&
Satoshi Ogano TonenGeneral Sekiyu K.K., Saitama, 356-8505, Japan
Pages 12-18 | Published online: 25 Mar 2008

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RyanJ. Clark & ClaudiaM. Fajardo. (2012) Assessment of the Properties of Internal Combustion Engine Lubricants Using an Onboard Sensor. Tribology Transactions 55:4, pages 458-465.
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Articles from other publishers (33)

Mohammed A Fayad, Francisco J Martos, José M Herreros, Karl D Dearn & Athanasios Tsolakis. (2023) Characterisation of soot agglomerates from engine oil and exhaust system for modern compression ignition engines. International Journal of Engine Research.
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Barbara Graziano, Patrick Burkardt, Marcel Neumann, Heinz Pitsch & Stefan Pischinger. (2021) Development of a Modified Joback–Reid Group Contribution Method to Predict the Sooting Tendency of Oxygenated Fuels. Energy & Fuels 35:16, pages 13144-13158.
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Daniela Wollmann & Giuseppe Pintaude. (2021) Tribological performance of high-strength cast iron in lubricated contact containing carbon black. Wear 476, pages 203743.
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Andrea Pacino, Ephraim Haffner-Staton, Antonino La Rocca, Joshua Smith & Mark Fowell. Understanding the Challenges Associated with Soot-in-Oil from Diesel Engines: A Review Paper. Understanding the Challenges Associated with Soot-in-Oil from Diesel Engines: A Review Paper.
Chuan Li & Xianguo Hu. 2021. Biodiesel Soot. Biodiesel Soot 91 106 .
Sujay Bagi, Carl Justin Kamp, Vibhu Sharma & Pranesh B. Aswath. (2020) Multiscale characterization of exhaust and crankcase soot extracted from heavy-duty diesel engine and implications for DPF ash. Fuel 282, pages 118878.
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Ephraim Haffner-Staton, Antonino La Rocca, Alasdair Cairns & Michael Fay. Morphological Characterization of Gasoline Soot-in-Oil: Development of Semi-Automated 2D-TEM and Comparison with Novel High-Throughput 3D-TEM. Morphological Characterization of Gasoline Soot-in-Oil: Development of Semi-Automated 2D-TEM and Comparison with Novel High-Throughput 3D-TEM.
Virginia Ruiz, Luis Yate, Judith Langer, Ivet Kosta, Hans J. Grande & Ramón Tena-Zaera. (2019) PEGylated carbon black as lubricant nanoadditive with enhanced dispersion stability and tribological performance. Tribology International 137, pages 228-235.
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Sebastian A. Pfau, Antonino La Rocca, Ephraim Haffner-Staton, Graham A. Rance, Michael W. Fay & Michael McGhee. Soot in the Lubricating Oil: An Overlooked Concern for the Gasoline Direct Injection Engine?. Soot in the Lubricating Oil: An Overlooked Concern for the Gasoline Direct Injection Engine?.
E. HAFFNER-STATONA. LA ROCCAM.W. FAY. (2018) Progress towards a methodology for high throughput 3D reconstruction of soot nanoparticles via electron tomography. Journal of Microscopy 270:3, pages 272-289.
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Barbara Graziano, Tamara Ottenwälder, Daniel Manderfeld, Stefan Pischinger & Gerd Grünefeld. (2018) Advanced Methodology for the Detection of Smoke Point Heights in Hydrocarbon Flames. Energy & Fuels 32:3, pages 3908-3919.
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David Vališ, Libor Žák & Ondřej Pokora. (2018) Perspective approach in using anti-oxidation and anti-wear particles from oil to estimate residual technical life of a system. Tribology International 118, pages 46-59.
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Nikolai K. Myshkin & Liubou V. MarkovaNikolai K. Myshkin & Liubou V. Markova. 2018. On-line Condition Monitoring in Industrial Lubrication and Tribology. On-line Condition Monitoring in Industrial Lubrication and Tribology 83 129 .
A. Kontou, M. Southby & H.A. Spikes. (2017) Effect of steel hardness on soot wear. Wear 390-391, pages 236-245.
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Enzhu Hu, Karl Dearn, Bingxun Yang, Ruhong Song, Yufu Xu & Xianguo Hu. (2017) Tribofilm formation and characterization of lubricating oils with biofuel soot and inorganic fluorides. Tribology International 107, pages 163-172.
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F. Motamen Salehi, D. N. Khaemba, A. Morina & A. Neville. (2016) Corrosive–Abrasive Wear Induced by Soot in Boundary Lubrication Regime. Tribology Letters 63:2.
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Takashi Honda & Satoshi Ogano. Effect of Soot in Diesel Engine Oils on Lowering Friction. Effect of Soot in Diesel Engine Oils on Lowering Friction.
A. La Rocca, F. Bonatesta, M.W. Fay & F. Campanella. (2015) Characterisation of soot in oil from a gasoline direct injection engine using Transmission Electron Microscopy. Tribology International 86, pages 77-84.
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Dairene Uy, Monica A. Ford, Douglas T. Jayne, Ann E. O׳Neill, Larry P. Haack, Jon Hangas, Mark J. Jagner, Alex Sammut & Arup K. Gangopadhyay. (2014) Characterization of gasoline soot and comparison to diesel soot: Morphology, chemistry, and wear. Tribology International 80, pages 198-209.
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André Ernesto, Denis Mazuyer & Juliette Cayer-Barrioz. (2014) The Combined Role of Soot Aggregation and Surface Effect on the Friction of a Lubricated Contact. Tribology Letters 55:2, pages 329-341.
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M W Fay, A La Rocca & P J Shayler. (2014) TEM and HRTEM of Soot-in-oil particles and agglomerates from internal combustion engines. Journal of Physics: Conference Series 522, pages 012072.
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Antonino La Rocca, Gianluca Di Liberto, Paul Shayler, Christopher Parmenter & Mike Fay. (2014) A Novel Diagnostics Tool for Measuring Soot Agglomerates Size Distribution in Used Automotive Lubricant Oils. SAE International Journal of Fuels and Lubricants 7:1, pages 301-306.
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A. La Rocca, G. Di Liberto, P.J. Shayler, C.D.J. Parmenter & M.W. Fay. (2014) Application of nanoparticle tracking analysis platform for the measurement of soot-in-oil agglomerates from automotive engines. Tribology International 70, pages 142-147.
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A. La Rocca, G. Di Liberto, P.J. Shayler & M.W. Fay. (2013) The nanostructure of soot-in-oil particles and agglomerates from an automotive diesel engine. Tribology International 61, pages 80-87.
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Hiralal Bhowmick, S K Majumdar & S K Biswas. (2012) Tribology of soot suspension in hexadecane as distinguished by the physical structure and chemistry of soot particles. Journal of Physics D: Applied Physics 45:17, pages 175302.
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H Bhowmick, S K Majumdar & S K Biswas. (2011) Dry tribology and nanomechanics of gaseous flame soot in comparison with carbon black and diesel soot. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 226:2, pages 394-402.
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Hiralal Bhowmick & S K Biswas. (2011) Tribology of ethylene–air diffusion flame soot under dry and lubricated contact conditions. Journal of Physics D: Applied Physics 44:48, pages 485401.
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Hiralal Bhowmick & S. K. Biswas. (2011) Relationship Between Physical Structure and Tribology of Single Soot Particles Generated by Burning Ethylene. Tribology Letters 44:2, pages 139-149.
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Dairene Uy, A. E. O'Neill, Steven J. Simko & Arup K. Gangopadhyay. (2009) Soot–additive interactions in engine oils. Lubrication Science 22:1, pages 19-36.
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C V Ossia, H Kong, L V Markova & N K Myshkin. (2009) Optical absorption under total internal reflection in the characterization of soot in diesel engine oils. Measurement Science and Technology 20:1, pages 015205.
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D A Green & R Lewis. (2008) The effects of soot-contaminated engine oil on wear and friction: A review. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 222:9, pages 1669-1689.
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S. Aldajah, O.O. Ajayi, G.R. Fenske & I.L. Goldblatt. (2007) Effect of exhaust gas recirculation (EGR) contamination of diesel engine oil on wear. Wear 263:1-6, pages 93-98.
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M Kaneta, T Irie, H Nishikawa & K Matsuda. (2006) Effects of soot on wear in elastohydrodynamic lubrication contacts. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 220:3, pages 307-317.
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