Infrared Spectral Studies of Copper-Containing Film on the Steel Sample
ABSTRACT
Infrared spectral studies of copper-containing film from steel sample (worn in pair with brass in glycerol) friction zone are performed in the study. The protective film formed by the interaction of the friction triad having functional groups typical for macromolecular compounds is shown.
Infrared spectral studies of copper-containing film from steel sample (worn in pair with brass in glycerol) friction zone are performed in the study. The protective film formed by the interaction of the friction triad having functional groups typical for macromolecular compounds is shown.
Cite this paper
Pichugin, S. and Malyshev, V. (2015) Infrared Spectral Studies of Copper-Containing Film on the Steel Sample. International Journal of Organic Chemistry, 5, 11-14. doi: 10.4236/ijoc.2015.51002.
Pichugin, S. and Malyshev, V. (2015) Infrared Spectral Studies of Copper-Containing Film on the Steel Sample. International Journal of Organic Chemistry, 5, 11-14. doi: 10.4236/ijoc.2015.51002.
References
[1] Kragelsky, I.V. (1968) Friction and Wear. Mashinostroenie, Moscow (in Russian). [2] Kragelsky, I.V., Kombalov, V.S. and Dobychin, V.N. (1980) The Bases of Calculations on Friction and Wear. Mashinostroenie, Moscow (in Russian). [3] Kostetsky, B.I. (1970) Friction, Lubrication and Wear in Machines. Tekhnika, Kiev (in Russian). [4] Kostetsky, B.I., Natanson, M.E. and Bershadsky, L.I. (1972) Mechanochemical Processes in the Boundary Lubrication. Nauka, Moscow (in Russian). [5] Bushe, N.A. and Kopytko, V.S. (1981) Compatibility of the Rubbing Surfaces. Nauka, Moscow (in Russian). [6] Nicolis, G. and Prigogine, I. (1989) Exploring Complexity: An Introduction. W.H. Freeman and Company, New York. [7] Ivanova, V.S., Bushe, N.A. and Gershman, I.S. (1997) Structural Adaptability at Friction as a Process of Self-Organization. Friction and Wear, 18, 74-79. [8] Pichugin, V.F. and Scherbinin, V.M. (2009) Friction Areas of Copper, Aluminum Alloy-Steel Pairs Worn in Glycerin. Friction and Lubrication in Machines and Mechanisms, 9, 27-33 (in Russian). [9] Kuzharov, A.S., Burlakova, V.E., Marchak R.I., et al. (1997) Tunneling Microscopy of the Tribosystem Copper-Glycerin-Steel Friction Surfaces. Abstracts for the 5th International Scientific-Technical Conference on the Dynamics of Technological Systems, Rostovon-Don, Vol. 2, 122-123 (in Russian). [10] Litvinov, V.N., Michin, N.M. and Myshkin, N.K. (1979) Physical and Chemical Mechanics of Selective Transfer in Friction. Science, Moscow (in Russian). [11] Bellali, L. (1963) Infrared Complex Molecules Spectrums. Publishing House of Foreign Literature, Moscow (in Russian).
[1] Kragelsky, I.V. (1968) Friction and Wear. Mashinostroenie, Moscow (in Russian). [2] Kragelsky, I.V., Kombalov, V.S. and Dobychin, V.N. (1980) The Bases of Calculations on Friction and Wear. Mashinostroenie, Moscow (in Russian). [3] Kostetsky, B.I. (1970) Friction, Lubrication and Wear in Machines. Tekhnika, Kiev (in Russian). [4] Kostetsky, B.I., Natanson, M.E. and Bershadsky, L.I. (1972) Mechanochemical Processes in the Boundary Lubrication. Nauka, Moscow (in Russian). [5] Bushe, N.A. and Kopytko, V.S. (1981) Compatibility of the Rubbing Surfaces. Nauka, Moscow (in Russian). [6] Nicolis, G. and Prigogine, I. (1989) Exploring Complexity: An Introduction. W.H. Freeman and Company, New York. [7] Ivanova, V.S., Bushe, N.A. and Gershman, I.S. (1997) Structural Adaptability at Friction as a Process of Self-Organization. Friction and Wear, 18, 74-79. [8] Pichugin, V.F. and Scherbinin, V.M. (2009) Friction Areas of Copper, Aluminum Alloy-Steel Pairs Worn in Glycerin. Friction and Lubrication in Machines and Mechanisms, 9, 27-33 (in Russian). [9] Kuzharov, A.S., Burlakova, V.E., Marchak R.I., et al. (1997) Tunneling Microscopy of the Tribosystem Copper-Glycerin-Steel Friction Surfaces. Abstracts for the 5th International Scientific-Technical Conference on the Dynamics of Technological Systems, Rostovon-Don, Vol. 2, 122-123 (in Russian). [10] Litvinov, V.N., Michin, N.M. and Myshkin, N.K. (1979) Physical and Chemical Mechanics of Selective Transfer in Friction. Science, Moscow (in Russian). [11] Bellali, L. (1963) Infrared Complex Molecules Spectrums. Publishing House of Foreign Literature, Moscow (in Russian).