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Title of the article

PHYSICAL AND CHEMICAL ANALYSIS, MULTIFRACTAL AND WAVELET ANALYSIS OF STRUCTURE AND FRICTION SURFACE RELIEF

Authors

Vityaz P.A., Academician of the NAS of Belarus, Doctor of Technical Sciences, Professor, Head of the National Academy of Sciences of Belarus, Head of the Department of Technology of Mechanical Engineering and Metallurgy of the Joint Institute of Mechanical Engineering of the NAS of Belarus, Minsk, Republic of Belarus
Ilyuschenko A.F., Corresponding Member of the NAS of Belarus, Doctor of Technical Sciences, Professor, General Director of SSPD Powder Metallurgy of the NAS of Belarus, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.
Kheifetz M.L., Doctor of Technical Science, Professor, Deputy Academician-Secretary of the Department of Physics and Technical Sciences of the NAS of Belarus, Minsk, Republic of Belarus
Solntsev K.A., Academician of the RAS, Doctor of Chemistry, Professor, Deputy President of the RAS - Managing Director of the RAS, Director of the Institute of Metallurgy and Materials Science n.a. A.A. Baikov of the RAS, Moscow, Russia
Barinov S.M., Corresponding Member of the RAS, Doctor of Technical Sciences, Deputy Director for Sciences of the Institute of Metallurgy and Materials Science n.a. A.A. Baikov of the RAS, Moscow, Russia
Kolmakov A.G., Doctor of Technical Sciences, Professor, Deputy Director for Scientific Work of the Institute of Metallurgy and Materials Science n.a. A.A. Baikov of the RAS, Moscow, Russia

In the section NANOMECHANICS
Year 2012 Issue 2 Pages 81-89
Type of article RAR Index UDK 621.9:536.75 Index BBK  
Abstract

Using system approaches provides essential development of traditional methods in materiology and their effective application for objects with difficult multiscale structure and for nano-structural materials as well. It shows application of complex physical and chemical analysis, multifractal and wavelet analysis to describe material structures in qualitative and quantitative way, which allows revealing the differences poorly distinguished with other separate methods and estimating system characteristics of material structures and characterizing the process in self-organizing in structures. Formation by tearing of friction surface structures for composite materials with additives of Al2O3 and SiC is described in comparable thermodynamic conditions. Adding SiC in comparison with Al2O3 promotes to a lesser extent fragmentation and increase in frequency of setting and breaking processes. Adding graphite to reinforced SiC composite material results in increase in nonequilibrium of thermodynamic condition of structure formation. Additional introduction of graphite in even greater degree strengthens distinctions between materials with SiC and Al2O3 additives, which results in formation of the least ordered structures of friction surface.

Keywords

nanostructured materials, aluminum alloys, wavelet analysis, composite materials, surface topography

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