Physico-chemical basis of macro-break flat friction surfaces in ECME(D)
Abstract
Physico-chemical basis of macro-break flat friction surfaces in ECME(D)References
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2. Taras Zamota, Alexander Kravchenko. Electrochemical-mechanical running in of the main engine′s conjugations//TEKA, Commission of Motorization and Power Industry in Agriculture.-Vol. XD.-Lublin,2010.-P.58-65.
3. Taras Zamota, Alexander Kravchenko. Improvement of tribotechnical characteristics of piston ring surfase at running in//TEKA, Commission of Motorization and Power Industry in Agriculture.-Vol. XB.-Lublin,2010.-P.323-330.
4. L. Economikos, X. Wang, A. Sakamoto, P. Ong, M. Naujok, R. Knarr, L. Chen, Y. Moon, S. Neo, J. Salfelder, A. Duboust, A. Manens, W. Lu, S. Shrauti, F. Liu, S. Tsai, W. Swart. Integrated Electro– Chemical Mechanical Planarization (Ecmp) for Future Generation Device Technology. IEEE, 2004. – pp.233– 235.
5. Yuan– Long Chen, Shu– Min Zhu, Shuo– Jen Lee and other. The technology combined electrochemical mechanical polishing. Journal of Materials Processing Technology 140 (2003). – pp.203– 205.
6. Shuo– Jen Lee, Yu– Ming Lee, Ming– Feng Du. The polishing mechanism of electrochemical mechanical polishing technology. Journal of Materials Processing Technology 140 (2003). – pp.280– 286.
7. Samuel B. Emery, Jennifer L. Hubbley, Maria A. Darling and other. Chemical factors for chemical– mechanical and electrochemical– mechanical planarization of silver examined using potentiodynamic and impedance measurements. Materials Chemistry and Physics 89 (2005). – pp.345 – 353.
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Published
2014-07-22
How to Cite
Замота, Т. (2014). Physico-chemical basis of macro-break flat friction surfaces in ECME(D). Problems of Tribology, 60(2), 26–30. Retrieved from https://tribology.khnu.km.ua/index.php/ProbTrib/article/view/323
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