[1]
V.I. Kolesnikov, Thermo Physical Processes in Metal Polymeric Tribosystems, Science, Moscow, (2003).
Google Scholar
[2]
K.N. Voynov, Tribology: International Encyclopedia, Volume 1, Historical information, terms and definitions, Anima, Saint-Petersburg, (2010).
Google Scholar
[3]
H. Gleiter, Nanostructured Materials - Scientific Background and Technological Perspectives, in: Proceeding of Materials Science Forum. 189-190 (1995) 67-80.
DOI: 10.4028/www.scientific.net/msf.189-190.67
Google Scholar
[4]
A.A. Okhlopkova, A.V. Vinogradova, Polymer Composite Materials of Tribological Designtion Based on Polytetrafluoroethylene and Ultra Disperse Ceramics, Friction and Wear. 6 (2002) 653-660.
Google Scholar
[5]
K.N. Dolgopolov, D.N. Luybimov, E.A. Glazunova, Tribochemistry of Silicates, Friction and Lubrication in Machinery and Mechanism. 11 (2013) 17-31.
Google Scholar
[6]
V.I. Kolesnikov, A.T. Kozakov, A.V. Sidashov, V.N. Kravtchenko, A.P. Sytchev, The Role of Diffusion and Segregation Processes in the Contact-Fatigue Destruction of the Working Surface of the Railway Wheel in Metal Polymeric Conjugation, Friction and Lubrication in Machinery and Mechanism. 8 (2005).
Google Scholar
[7]
V.I. Kolesnikov, A.T. Kozakov, A.V. Sidashov, V.N. Kravtchenko, A.P. Sytchev, Diffusion and Segregation Processes in Metal Polymeric Tribosystem, Friction and Wear. 4 (2006) 361-365.
Google Scholar
[8]
V.I. Kolesnikov, A.T. Kozakov, A.V. Sidashov, Factors Affecting the Distribution of Mechanical Properties in Depth of Railway Wheel under Cyclic Loading, Deformation and Fracture of Materials. 12 (2007) 38 -42.
Google Scholar
[9]
V.I. Kolesnikov, A.T. Kozakov, A.V. Sidashov, S.B. Bulgarevich, M.V. Boyko, Experimental and Theoretical Studies of Segregation Phenomena on the Mating Surfaces and Intercrystalline Boundaries of Materials of Wheel-Rail-Brake Shoe Tribosystem, Bulletin of Southern Scientific Center of The Russian Academy of Sciences. 3 (2007).
DOI: 10.23885/1813-4289-2007-3-3-9-20
Google Scholar
[10]
V.I. Kolesnikov, A.T. Kozakov, A.V. Sidashov, N.A. Myasnikova, Studying the properties of friction surfaces and ways to control them, in metal pairing, Bulletin of Southern Scientific Center of The Russian Academy of Sciences. 2 (2007) 20-35.
Google Scholar
[11]
D. Briggs, M.P. Sikh, The Surface Analysis by Auger and X-Ray Photoelectron Spectroscopy Methods, Publishing House World, Moscow, (1987).
Google Scholar
[12]
G. Fhilippov, V. Sinelnikov, Metallurgical Processes of Rail Steel Production and Properties of Railroad Rails, in: Proceedings of International Heavy Haul Association STS - conference: Wheel / Rail Interface, Moscow. 1 (1999) 255-266.
Google Scholar
[13]
V.I. Kolesnikov, N.A. Myasnikova, V.N. Kravtchenko, Fundamentals for the Development of New Metal-Polymer Materials for Friction Units, Bulletin of Universities of North-Caucasus Region: Technical Sciences, Special Issue. (2007) 12-16.
Google Scholar
[14]
M. Yu. Yablokov, The Adhesive Properties of Polytetrafluoroethylene Films, Modified in Plasma, Chemistry of High Energies. 6 (2009) 569-572.
Google Scholar
[15]
V.I. Kolesnikov, Yu.F. Migal, V.I. Kolesnikov, N.A. Myasnikova, The Development of Hybrid Fillers for Anti-Friction Composite Materials, Bulletin of Rostov State Transport University. 4 (2014) 14-19.
Google Scholar