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A S L E Transactions Volume 13, 1970 - Issue 3
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Original Articles

The Antiwear Behavior of TCP in Different Atmospheres and Different Base Stocks

I. L. Goldblatt Esso Research & Engineering Company, Linden, New Jersey
&
J. K. Appeldoorn Esso Research & Engineering Company, Linden, New Jersey
Pages 203-214 | Published online: 25 Mar 2008

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J.M. Perez, C.S. Ku, P. Pei, B.E. Hegemann & S.M. Hsu. (1990) Characterization of Tricresylphosphate Lubricating Films by Micro-Fourier Transform Infrared Spectroscopy. Tribology Transactions 33:1, pages 131-139.
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Franco Arezzo. (1985) Oil-Aging Mechanism on 52100 Steel with Hydrocarbon Oils Containing Tricresyl Phosphate (TCP). A S L E Transactions 28:2, pages 203-212.
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OwenD. Faut & DonaldR. Wheeler. (1983) On the Mechanism of Lubrication by Tricresylphosphate (TCP)—The Coefficient of Friction as a Function of Temperature for TCP on M-50 Steel. A S L E Transactions 26:3, pages 344-350.
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A. Gauthier, H. Montes & J.M. Georges. (1982) Boundary Lubrication with Tricresylphosphate (TCP). Importance of Corrosive Wear. A S L E Transactions 25:4, pages 445-455.
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R.I. Barber. (1976) The Preparation of Some Phosphorus Compounds and Their Comparison as Load Carrying Additives by the Four-Ball Machine. A S L E Transactions 19:4, pages 319-328.
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RogerO. Bjerk. (1973) Oxygen—An “Extreme-Pressure Agent”. A S L E Transactions 16:2, pages 97-106.
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Articles from other publishers (27)

James P. Ewen, Carlos Ayestarán LatorreChiara Gattinoni, Arash Khajeh, Joshua D. Moore, Joseph E. Remias, Ashlie Martini & Daniele Dini. (2020) Substituent Effects on the Thermal Decomposition of Phosphate Esters on Ferrous Surfaces. The Journal of Physical Chemistry C 124:18, pages 9852-9865.
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Eric Osei-Agyemang, Stephen Berkebile & Ashlie Martini. (2018) Decomposition Mechanisms of Anti-wear Lubricant Additive Tricresyl Phosphate on Iron Surfaces Using DFT and Atomistic Thermodynamic Studies. Tribology Letters 66:1.
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Bihan Guan, Bernadeta A. Pochopien & Dominic S. Wright. (2016) The chemistry, mechanism and function of tricresyl phosphate (TCP) as an anti-wear lubricant additive. Lubrication Science 28:5, pages 257-265.
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Weiquan Yang, Boshui Chen, Peili Zhang, Jianhua Fang, Jiu Wang & Kecheng Gu. (2015) Synthesis and Tribological Performance of Phosphate Ester Containing Nitrogen from Methyl Oleate in Rapeseed Oil. Biotechnology(Faisalabad) 14:3, pages 148-153.
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. 2014. Engineering Tribology. Engineering Tribology 371 428 .
G. F. Pavelko. (2012) The mechanism of iron phosphide formation during boundary friction in the presence of organic phosphates and phosphites. Journal of Friction and Wear 33:2, pages 115-123.
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Keiji Sasaki, Naruhiko Inayoshi & Kohji Tashiro. (2010) Friction-induced dynamic chemical changes of tricresyl phosphate as lubricant additive observed under boundary lubrication with 2D fast imaging FTIR-ATR spectrometer. Wear 268:7-8, pages 911-916.
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Hua Wu & Tian Ren. (2009) Investigation of antiwear additives for diester. Industrial Lubrication and Tribology 61:5, pages 240-245.
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Ichiro Minami & Shigeyuki Mori. (2007) Concept of molecular design towards additive technology for advanced lubricants. Lubrication Science 19:2, pages 127-149.
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H. Wu & T. H. Ren. (2006) Tribological performance of sulfonamide derivatives as lubricating oil additives in the diester. Journal of Synthetic Lubrication 23:4, pages 211-221.
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Gwidon W. Stachowiak & Andrew W. Batchelor. 2006. Engineering Tribology. Engineering Tribology 363 417 .
Lauralice C.F. Canale, Guizhen Xu, Hong Liang, Jiajun Liu & George E. Totten. Surface Engineered Coatings and Surface Additive Interactions for Boundary Film Formation to Reduce Frictional Losses in the Automotive Industry: A review. Surface Engineered Coatings and Surface Additive Interactions for Boundary Film Formation to Reduce Frictional Losses in the Automotive Industry: A review.
Hon So, Mathias Woydt, Zygmunt Rymuza, Czeslaw Kajdas, Michael Furey, Joz¡e Viz¡intin, Wilfred Tysoe, Peter Kotvis, Ilia Buyanovsky, Zinaida Ignatieva, Ruvim Zaslavsky, Matgorzata Ziomek-Moroz, Jeffrey Hawk, Einar Bardal & Asgeir Bardal. 2004. Surface Modification and Mechanisms. Surface Modification and Mechanisms.
Rong Fu Tsinghua & Yansheng Qiu. (2006) The effect of aromatic hydrocarbons in lubricant base oils on the efficiency of adsorptive additives. Lubrication Science 14:2, pages 195-210.
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Ichiro Minami, Hyun‐Soo Hong & Naresh C. Mathur. (2006) Effect of alkenes on the antiwear mechanism of dialkyl hydrogen phosphites. Lubrication Science 13:3, pages 219-230.
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Ichiro Minami, Satoru Kikuta & Heihachiro Okabe. (1998) Anti-wear and friction reducing additives composed of ortho-phenylene phosphate-amine salts for polyether type base stocks. Tribology International 31:6, pages 305-312.
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Christopher McFadden, Cristian Soto & Nicholas D Spencer. (1997) Adsorption and surface chemistry in tribology. Tribology International 30:12, pages 881-888.
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. 1993. Engineering TriBology. Engineering TriBology 425 484 .
. 1990. Encyclopedia of Tribology. Encyclopedia of Tribology 381 448 .
Alfeo A. Conte. (1985) The action of organo-phosphate additives in polysiloxane fluids. Journal of Synthetic Lubrication 2:2, pages 95-120.
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. 1985. Mechanics and Chemistry in Lubrication. Mechanics and Chemistry in Lubrication 255 307 .
Donald R. Wheeler & Owen D. Faut. (1984) The adsorption and thermal decomposition of tricresylphosphate (TCP) on iron and gold. Applications of Surface Science 18:1-2, pages 106-122.
Crossref
I.L. Goldblatt. 1981. Microscopic Aspects of Adhesion and Lubrication, Proceedings of the 34th International Meeting of the Société de Chimie Physique. Microscopic Aspects of Adhesion and Lubrication, Proceedings of the 34th International Meeting of the Société de Chimie Physique 521 551 .
M. Tomaru, S. Hironaka & T. Sakurai. (1977) Effects of some chemical factors on film failure under EP conditions. Wear 41:1, pages 141-155.
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D Scott, A.I Smith, J Tait & G.R Tremain. (1975) Materials and metallurgical aspects of piston ring scuffing — A literature survey. Wear 33:2, pages 293-315.
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T. A. Kvyatkovskaya, N. Ya. Rudakova, P. E. Nedbailyuk & V. I. Shablii. (1974) Chemical composition of mineral base for lubricating-cooling fluids in relation to susceptibility to extreme-pressure and antiwear additives. Chemistry and Technology of Fuels and Oils 10:11, pages 839-842.
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Yu.S. Zaslavsky, A.A. Berlin, R.N. Zaslavsky, M.I. Cherkashin, K.E. Beloserova & V.A. Rusakova. (1972) Antiwear, extreme pressure and antifriction action of friction polymer forming additives. Wear 20:3, pages 287-297.
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