DIMINISHING OF MACRO-GEOMETRICAL ERROR OF DETAIL′S FORM AND FRICTION TORQUE BY ELECTROCHEMICAL-MECHANICAL RUNNING-IN
Abstract
The processes of ECMR pass in the environment of electrolyte, which influences efficiency of process, mode of friction at running-in pair and speed of electrochemical reactions. The essence of ECMR consists of the following: working motion for details of mechanism is given, between details an electrolyte is pumping and cutoff alternating current. Due to joint electrochemical-mechanical influence there is a rapid adaptation of one surface to other. The most effective factor of ECMR is electrochemical, at which it is easy to electrochemical stripping of material from the run-in surface due to anodal dissolution at the hydrodynamic lubrication rate.References
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2. Samuel B. Emery, Jennifer L. Hubbley, Maria A. Darling and other., 2005; Chemical factors for chemical– mechanical and electrochemical– mechanical planarization of silver examined using potentiodynamic and impedance measurements. Materials Chemistry and Physics 89. – pp.345– 353..
3. Yung– Fu Wu, Tzu– Hsuan Tsai. , 2007: Effect of organic acids on copper chemical mechanical pol-ishing. Microelectronic Engineering. – pp.1– 9.
4. Economikos L., Wang X., Sakamoto A., and other., 2004.: Integrated Electro– Chemical Mechanical Planarization (Ecmp) for Future Generation Device Technology// IEEE, – p.233– 235.
5. Canhua Li, Ishwara B. Bhat, Rongjun Wang, Joseph Seiler. , 2004: Electro– Chemical Mechanical Polishing of Silicon Carbide. Journal of Electronic Materials, Vol.33, №5 – pp.481– 486.
6. Yuan– Long Chen, Shu– Min Zhu, Shuo– Jen Lee and other., 2003: The technology combined elec-trochemical mechanical polishing. Journal of Materials Processing Technology 140. – pp.203– 205.
7. Alan S. Brown, 2005: Flat, Cheap, and Under Control. IEEE Spectrum. – January. – pp.40– 45.
8. Alexeev V.P., 2011: Electrochemical - mechanical macro-running-in of details. Monograph.-Lugansk: Elton-2 . – P.204.
9. Peter J. Blau., 2005: On the nature of running– in. Tribology International 38. – pp.1007– 1012.
10. Semenov V., 1991.: Mode of lubricating of pair of friction piston ring- cylinder of engine // Engine construction.- №10-11,- p.19-23.
11. Lyubimov V., Kitaev U., 1983.: Influence of anionic composition of electrolyte on leveler proper-ties of electrochemical treatment with a periodic abrasive depassivation // Electronic treatment of materials.- №5.- p.13-17.
12. Kadaner L., Kotlyar A., Scherbak M. and other. ,1971.: Method of research of anodal kinetics of dissolution of metals in the conditions of their abrasive destruction // Electronic treatment of materials.- №1.- p.15-20.
13. Taras Zamota., 2010: Improvement of tribotechnical characteristics of piston ring surfase at running in / Taras Zamota, Alexander Kravchenko // TEKA, Commission of Motorization and Power Industry in Agri-culture.-Vol. XB.-Lublin,.-P. 323 – 330.
14. Taras Zamota., 2010: Electrochemical-mechanical running in of the main engine′s conjugations / Taras Zamota, Alexander Kravchenko //TEKA, Commission of Motorization and Power Industry in Agricul-ture.-Vol. XD.- Lublin, - P.58-65
15. Taras Zamota, Victor Aulin. , 2013. Improvement of Tribotechnical Characteristics of the Main En-gine′s Pairings at Electrochemical-Mechanical running-in //TEKA, Commission of Motorization and Power In-dustry in Agriculture.-Vol. 13, № 3 - Lublin.- P.244-251
16. Zamota T.N., 2011: Electrochemical bases of process of macro- running-in of flat surfaces of fric-tion at ECMR, / T.N. Zamota // Problems of Tribology. International scientific journal. – Khmel'nickiy National university, №4, pp.56 – 61.
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Published
2014-05-08
How to Cite
Замота, Т., & Аулин, В. (2014). DIMINISHING OF MACRO-GEOMETRICAL ERROR OF DETAIL′S FORM AND FRICTION TORQUE BY ELECTROCHEMICAL-MECHANICAL RUNNING-IN. Problems of Tribology, 71(1), 109–115. Retrieved from https://tribology.khnu.km.ua/index.php/ProbTrib/article/view/98
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