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Journal of Dispersion Science and Technology Volume 21, 2000 - Issue 4
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Original Articles

THE RESEARCH AND APPLICATION OF COLLOID AS LUBRICANTS

Weimin Liu Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences, Lanzhou, P. R., 730000, China
,
ZefU Zhang Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences, Lanzhou, P. R., 730000, China
,
Shuang Chen Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences, Lanzhou, P. R., 730000, China
&
Qunji Xue Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences, Lanzhou, P. R., 730000, China
Pages 469-490 | Received 03 Jul 1998, Accepted 15 Sep 1998, Published online: 03 Apr 2007

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V. Srinivas, Ch. Kodanda Rama Rao & N. Mohan Rao. (2018) Lubricating and physico-chemical properties of CI- 4 plus engine oil dispersed with surface modified multi-walled carbon nanotubes. Tribology - Materials, Surfaces & Interfaces 12:2, pages 107-114.
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V. Srinivas, R. N. Thakur & A. K. Jain. (2017) Antiwear, Antifriction, and Extreme Pressure Properties of Motor Bike Engine Oil Dispersed with Molybdenum Disulfide Nanoparticles. Tribology Transactions 60:1, pages 12-19.
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Arpana Verma, Wenping Jiang, HusamH. Abu Safe, WilliamD. Brown & AjayP. Malshe. (2008) Tribological Behavior of Deagglomerated Active Inorganic Nanoparticles for Advanced Lubrication. Tribology Transactions 51:5, pages 673-678.
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Articles from other publishers (11)

E. Yu. Oganesova, A. S. Lyadov & O. P. Parenago. (2018) Nanosized Additives to Lubricating Materials. Russian Journal of Applied Chemistry 91:10, pages 1559-1573.
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Karen Mitchell, Anne Neville, Gary M. Walker, Michael R. Sutton & Olivier J. Cayre. (2018) Synthesis and tribological testing of poly(methyl methacrylate) particles containing encapsulated organic friction modifier. Tribology International 124, pages 124-133.
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V. Srinivas, Dedeepya Valluripally, P.V. Manikanta & V. Satish. (2014) Anti Friction Properties of Motor Oil Dispersed with WS<sub>2</sub> and MoS<sub>2</sub> Nanoparticles. Applied Mechanics and Materials 592-594, pages 1272-1276.
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M.D. Abad & J.C. Sánchez-López. (2013) Tribological properties of surface-modified Pd nanoparticles for electrical contacts. Wear 297:1-2, pages 943-951.
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J.C. Sánchez-López, M.D. Abad, L. Kolodziejczyk, E. Guerrero & A. Fernández. (2011) Surface-modified Pd and Au nanoparticles for anti-wear applications. Tribology International 44:6, pages 720-726.
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Pullela K Sarma, Vadapalli Srinivas, Vedula Dharma Rao & Ayyagari Kiran Kumar. (2011) Experimental study and analysis of lubricants dispersed with nano Cu and TiO2 in a four-stroke two wheeler. Nanoscale Research Letters 6:1.
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O. P. Parenago, G. N. Kuz’mina, V. N. Bakunin & E. Yu. Oganesova. (2009) Nanosized structures in high-temperature oxidation of lubricating oil hydrocarbons. Russian Journal of General Chemistry 79:6, pages 1390-1399.
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L. Kolodziejczyk, D. Martínez-Martínez, T. C. Rojas, A. Fernández & J. C. Sánchez-López. (2006) Surface-modified Pd nanoparticles as a superior additive for lubrication. Journal of Nanoparticle Research 9:4, pages 639-645.
Crossref
Gerhard Lagaly. 2000. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
B. Li, X. Wang, W. Liu & Q. Xue. (2006) Tribochemistry and antiwear mechanism of organic–inorganic nanoparticles as lubricant additives. Tribology Letters 22:1, pages 79-84.
Crossref
V. N. Bakunin, A. Yu. Suslov, G. N. Kuzmina & O. P. Parenago. (2006) Recent achievements in the synthesis and application of inorganic nanoparticles as lubricant components. Lubrication Science 17:2, pages 127-145.
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