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

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

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.

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

• Kuksenova L.I. [et al.]. Metody ispytanij na trenie i iznos [Test methods for friction and wear]. Moscow, Intermet Inzhiniring, 2001. 152 p.
• Vahal A., Hebda M. Ponjatie o tribologicheskih sistemah [Concept of tribological systems]. Sprav. po tribotehnike [Handbook on tribo-fatigue]. Moscow, Mashinostroenie, 1989, vol. 1, pp. 42-45.
• Salomon G. Application of Systems Thinking to Tribology. ASLE Trans., 1974, vol. 17, no. 4, pp. 295-299.
• Czichos H., Molgaard J. Towards a General Theory of Tribological Systems. Wear, 1977, vol. 44, no. 2.
• Vityaz P.A. [et al.]. Mnogourovnevyj sistemnyj fiziko-himicheskij, mul'tifraktal'nyj i vejvlet-analiz izobrazhenij struktur nanomaterialov i ih svojstv [Multi-level system physico-chemical, multifractal and wavelet analysis of images of structures and properties of nanomaterials]. Vestn. Poloc. gos. un-ta. Ser. S. Fundamental'nye nauki [Journal of Polotsk State University. Series. C. Basic Science], 2011, no. 4, pp. 14-25.
• Kolmakov A.G. [et al.]. Sistemnyj podhod k opisaniju struktur materialov i nanomaterialov [Systematic approach to the description of the structures of materials and nanomaterials]. Sb. materialov III Mezhdunar. konf. “Deformacija i razrushenie materialov i nanomaterialov” [Sourcebook of the III International Conference “Deformation and fracture of materials and nanomaterials”]. Moscow, Interkontakt Nauka, 2009, vol. 1, pp. 58-60.
• Kolmakov A.G., Zverev A.A. Primenenie sovremennyh matematicheskih metodov dlja sistemnogo opisanija struktur materialov [Application of modern mathematical methods for systematic description of materials structures]. Sb. nauch. tr. Institutu metallurgii i materialovedenija im. A.A. Bajkova RAN - 70 let [Coll. of scientific. Papers. Institute of Metallurgy and Materials Science n.a. A.A. Baykov of the RAS - 70 years]. Moscow, Interkontakt Nauka, 2008, pp. 660-675.
• Ivanova V.S. [et al.]. Sinergetika i fraktaly v materialovedenii [Synergy and fractals in material science]. Moscow, Nauka, 1994. 383 p.
• Jebeling V. Obrazovanie struktur pri neobratimyh processah: vvedenie v teoriju dissipativnyh struktur [Formation of structures in irreversible processes: introduction to the theory of dissipative structures]. Moscow, Mir, 1979. 279 p.
• Berzhe P., Pomo I., Vidal K. Porjadok v haose: O deterministicheskom podhode k turbulentnosti [Order in chaos: About deterministic approach to turbulence]. Moscow, Mir, 1991. 368 p.
• Vstovskij G.V. Jelementy informacionnoj fiziki [Elements of information physics]. Moscow, MGIU, 2002. 260 p.
• Vstovskij G.V., Kolmakov A.G., Bunin I.Zh. Vvedenie v mul'tifraktal'nuju parametrizaciju struktur materialov [Introduction to multifractal parameterization of material structures]. Izhevsk, Reguljarnaja i haoticheskaja dinamika, 2001. 116 p.
• Kolmakov A.G. Ispol'zovanie polozhenij sistemnogo podhoda pri izuchenii struktury i osobennostej plasticheskoj deformacii i razrushenija metallicheskih materialov [Using the provisions of systematic approach in the study of structure and characteristics of plastic deformation and fracture of metallic materials]. Metally [Metals], 2004, no. 4, pp. 98-107.
• Blatter K. Vejvlet-analiz. Osnovy teorii [Wavelet analysis. Fundamentals of theory]. Moscow, Tehnosfera, 2004. 280 p.
• Levkovich-Masljuk L., Pereberin A. Vvedenie v vejvlet-analiz [Introduction to wavelet analysis]. Moscow, Grafi-Kon’99, 1999. 280 p.
• Rabotnov Ju.N. Jelementy nasledstvennoj mehaniki tverdyh tel [Elements of hereditary mechanics of solids]. Moscow, Nauka, 1977. 384 p.
• Il'jushin A.A., Pobedrja B.E. Osnovy matematicheskoj teorii termovjazkouprugosti [Fundamentals of mathematical theory of thermoviscoelasticity]. Moscow, Nauka, 1970. 280 p.
• Grigoreva V.A., Zorina V.M. eds. Teoreticheskie osnovy teplotehniki. Teplotehnicheskij jeksperiment [Theoretical basics of heat. Thermal experiment]. Moscow, Jenergoatomizdat, 1988. 560 p.
• Khejfetz, M.L. Proektirovanie processov kombinirovannoj obrabotki [Design process of combined treatment]. Moscow, Mashinostroenie, 2005. 272 p.
• Lihachev V.A., Hajrov Ju.R. Vvedenie v teoriju disklinacij [Introduction to the disclinations theory]. L., LGU, 1975. 183 p.
• Glensdorf P., Prigozhin I. Termodinamicheskaja teorija struktury, ustojchivosti i fluktuacii [Thermodynamic theory of structure, stability and fluctuations]. Moscow, Mir, 1973. 280 p.
• Gibbs Dzh.V. Termodinamicheskie raboty [Thermodynamic works]. M.-L., Gostehteorizdat, 1950. 492 p.
• Alekseev N.M. [et al.]. O samopodobii processov trenija i iznashivanija na razlichnyh masshtabnyh urovnjah [On self-similarity of friction and wear on different levels of scale]. Trenie i iznos [Friction and wear], 1992, vol. 13, no. 1, pp. 161-171.
• Silin S.S. Metod podobija pri rezanii metallov [Method of similarity for metal cutting]. Moscow, Mashinostroenie, 1979. 152 p.
• Klimenko S.A., Mukovoz Ju.A., Polonskij L.G. Rezhushhij instrument iz PSTM na osnove nitrida bora [Cutting tool of PSTM based on boron nitride]. Kiev, Znanie, 1994. 36 p.
• Gripachevskij A.N., Vereshhak A.V., Gorskij V.V. Samoorganizacija vtorichnyh struktur pri trenii medi i bronzy po stali [Self-organization of secondary structures in friction copper and bronze on steel]. Trenie i iznos [Friction and wear], 1992, vol. 13, no. 4, pp. 647-653.
• Alekseev N.M. Novoe o strukturnyh osobennostjah iznashivanija tverdyh tel [New features on the structural deterioration of solids]. Trenie i iznos [Friction and wear], 1989, vol. 10, no. 2, pp. 197-205.
• Chernyshova T.A. [et al.]. Vzaimodejstvie metallicheskih rasplavov s armirujushhimi napolniteljami [Interaction of metal melts with reinforcing fillers]. Moscow, Nauka, 1993. 272 p.
• Zverev A.A. [et al.]. Vejvlet-analiz dlja issledovanija struktury poverhnostej trenija aljumomatrichnyh kompozitov [Wavelet analysis to study the structure of friction surface aluminum-matrix composites]. Imperfection Interaction and Anelastic Phenomena in Solids: Proc. of the XI International Conference (IIAPSXI). Tula, Russia, 2007. 86 p.
• Zverev A.A., Kolmakov A.G. Primenenie vejvlet-analiza dlja issledovanija struktury poverhnostej razrushenija [Application of wavelet analysis to study the structure of fracture surfaces]. Deformation & Fracture of Materials and Nanomaterials- DFMN 2007: Book of articles. Moscow, Interkontakt Nauka, 2007, pp. 637-639.