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Tribology Transactions Volume 43, 2000 - Issue 2
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Original Articles

The Study of Lubricant Additive Reactions Using Non-Aqueous Electrochemistry

Y. Zhu Department of Chemistry, University College, London, UK
,
S. Ogano Tonen Corporate R&D Laboratories, Saitama, Japan, 356
,
G. Kelsall Huxley School of Environment, Imperial College, London, UK
&
H. A. Spikes Tribology Section, Imperial College, London, UK
Pages 175-186 | Published online: 25 Mar 2008

Citations (16)

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B. Khemchandani, A. K. Jaiswal, E. Sayanna, B. Hinton & M. Forsyth. (2015) Evaluation of corrosion behaviour of biodegradable base oils using electrochemical techniques. Corrosion Engineering, Science and Technology 50:2, pages 108-117.
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Akihiko Yano, Akihiro Sakanishi, Fumiharu Takahashi, Seiji Shirai, Yukihiro Uchida, Kenji Fujita, Fumitaka Kikkawa, Keiji Fujioka, Tsuyoshi Kawazoe, Kunio Saki & Yuji Yamamoto. (2007) Corrosive Wear of Bronze Propeller Shaft Sleeve (Part 2; Wear Control by Cathodic Protection and Application to an Actual Ferry). Tribology Transactions 50:1, pages 13-24.
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Articles from other publishers (14)

Shaowei Li, Chenxu Liu, Wang He, Jie Zhang, Xiaoxi Qiao, Jiang Li, Dong Xiang, Gao Qian, Pengpeng Bai, Yonggang Meng & Yu Tian. (2023) A Review of Electric Potential-Controlled Boundary Lubrication. Lubricants 11:11, pages 467.
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Julio A. Cao-Romero-Gallegos, Leonardo I. Farfan-Cabrera, Ali Erdemir & Juan B. Pascual-Francisco. (2023) Lubricated sliding wear of gear material under electrification – A new approach to understanding of the influence of shaft currents in the wear of EV transmissions. Wear 523, pages 204782.
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Oscar A. Aguilar-Rosas, Leonardo I. Farfan-Cabrera, Ali Erdemir & Julio Alberto Cao-Romero-Gallegos. (2023) Electrified four-ball testing – A potential alternative for assessing lubricants (E-fluids) for electric vehicles. Wear 522, pages 204676.
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Leonardo I. Farfan-Cabrera, Ali Erdemir, Julio A. Cao-Romero-Gallegos, Istiaque Alam & Seunjoo Lee. (2023) Electrification effects on dry and lubricated sliding wear of bearing steel interfaces. Wear 516-517, pages 204592.
Crossref
Hugh A. Spikes. (2020) Triboelectrochemistry: Influence of Applied Electrical Potentials on Friction and Wear of Lubricated Contacts. Tribology Letters 68:3.
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Viswanathan S. Saji. (2020) Temporary rust preventives—A retrospective. Progress in Organic Coatings 140, pages 105511.
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Jun Zhang & Yonggang Meng. (2015) Boundary lubrication by adsorption film. Friction 3:2, pages 115-147.
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Remco Hartkamp & Benoit Coasne. (2014) Structure and transport of aqueous electrolytes: From simple halides to radionuclide ions. The Journal of Chemical Physics 141:12.
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Xiaoyong Yang, Yonggang Meng & Yu Tian. (2013) Potential-Controlled Boundary Lubrication of Stainless Steels in Non-aqueous Sodium Dodecyl Sulfate Solutions. Tribology Letters 53:1, pages 17-26.
Crossref
Wenjie Zhai. (2007) Research progress in tribo-electrochemistry and tribo-electrochemical polishing. Frontiers of Mechanical Engineering in China 2:4, pages 463-467.
Crossref
X. Xu & H. Spikes. (2006) Study of zinc dialkyldithiophosphate in di-ethylhexyl sebacate using electrochemical techniques. Tribology Letters 25:2, pages 141-148.
Crossref
X.Y Wang, H Zhang & D.Y Li. (2004) Characterization of lubricated worn surfaces using a nano/micro-indenter. Materials Science and Engineering: A 371:1-2, pages 222-228.
Crossref
Xiaoyin Xu, Nigel Brandon & Hugh Spikes. 2002. Boundary and Mixed Lubrication - Science and Applications, Proceedings of the 28th Leeds-Lyon Symposium on Tribology. Boundary and Mixed Lubrication - Science and Applications, Proceedings of the 28th Leeds-Lyon Symposium on Tribology 175 181 .
Xiaoyin Xu, Hugh Spikes & Nigel Brandon. 2001. Fundamentals of Tribology and Bridging the Gap Between the Macro- and Micro/Nanoscales. Fundamentals of Tribology and Bridging the Gap Between the Macro- and Micro/Nanoscales 711 716 .

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