from 01.01.1974 until now
Yaroslavl, Yaroslavl, Russian Federation
Russian Federation
employee
Moscow, Moscow, Russian Federation
UDK 544.032.2 Влияние механического воздействия
UDK 544.463 Механохимические реакции
Ageing quality kinetic model of adhesive compound of metals, when subjected to loadings by normal fracture method, is viewed. The results of the study of compound parameters effect on the pattern of change in the concentration of adhesive bonds are given. The article presents theoretical prediction of compound parameters for a safe ageing quality mode
powder coatings, adhesive compounds, fracture kinetics, ageing quality prediction
1. Kudinov V.V., Bobrov G.V. Nanesenie pokrytiy napyleniem. Teoriya, tehnologiya i oborudovanie. - M.: Metallurgiya, 1992. - 432 s.
2. Gazotermicheskoe napylenie / pod obschey red. L. H. Baldaeva. - M.: Market DS, 2007. - 344 s.
3. Davis J.R. Handbook of thermal spray technology. - ASM International, 2004. - 338 p.
4. Chen Z., Zhou K., Lu X., Lam Y.Ch. A review on the mechanical methods for evaluating coating adhesion. Acta Mechanica. - 2014. - V. 225. - № 2. - P. 431.
5. GOST 9.304-87. Pokrytiya gazotermicheskie. Obschie trebovaniya i metody kontrolya. - M.: IPK Izd-vo standartov. - 2001. - 10 s.
6. ASTM C633-13. Standard Test Method for Adhesion or Cohesion Strength of Thermal Spray Coatings. ASTM. West Conshocken. PA. USA. - 2021. - 8 p.
7. Pugacheva N.B., Guzanov B.N., Obabkov N.V., et al. //AIP Conference Proceedings. 2019. - 2176.
8. Tushinskiy L.I., Plohov AV., Tokarev A.O., Sindeev V.I. Metody issledovaniy materialov. - M.: Mir, 2004. - 384 s.
9. Bourah D., Robinson B., London T., et al. Experimental evaluation of interfacial adhesion strength of cold sprayed Ti-6Al-4V thick coatings using an adhesive-free test method // Surf. Coat. Technol. - 2019.
10. Zaycev A.N., Aleksandrova Yu.P., Yagopol'skiy A.G. Obzor metodov ocenki prochnosti scepleniya gazotermicheskih pokrytiy // Izvestiya vysshih uchebnyh zavedeniy. Mashinostroenie. - 2021. - № 5. - C. 48-59.
11. WangY.-Y., LiC.-J., OmariA.Influence of substrate roughness on the bonding mechanisms of high velocity oxy-fuel sprayed coatings. Thin Solid Films. - 2005. - V. 485. - PP.141 - 147.
12. White B. C., Story W. A., Brewer L. N., Jordon J. B. Fracture Mechanics Methods for Evaluating the Adhesion of Cold Spray Deposits. Engineering Fracture Mechanics. - 2019. - V. 205. - PP. 57-69.
13. Asgharifar M., Kong F., Carlson B, Kovacevic R. An Experimental and Numerical Study of Effect of Textured Surface by Arc Discharge on Strength of Adhesively Bonded Joints. Journal of Mechanics Engineering and Automation. - 2012. - V.2. - PP. 229-242.
14. Hussain T., McCartney D.G., Shipway P. H., Zhang D. Bonding Mechanisms in Cold Spraying: The Contributions of Metallurgical and Mechanical Components. J. Therm. Spray Technol. - 2009. - V. 18. - № 3. - PP. 364 - 379.
15. Marot G., Lesage J., Démarécaux Ph., et. al. Interfacial indentation and shear tests to determine the adhesion of thermal spray coatings. Surf. Coat. Technol. - 2006. - V. 201. - PP. 2080 - 2085.
16. Farhan M. S. A review on adhesion strength of single and multilayer coatings and the evaluation method. Wasit Journal of Engineering Science. - 2016. - V.4. - №.1. - PP. 1-27.
17. Gnaeupel-Herold T., Prask H. J., John Barker J., et. al. Microstructure, mechanical properties, and adhesion in IN625 air plasma sprayed coatings. Mater. Sci. Eng., A. - 2006. - V. A 421. - PP.77-85.
18. Sahab A. R. M., Saad N. H., Kasolang S., Saedon J.Impact of Plasma Spray Variables Parameters on Mechanical and Wear Behaviour of Plasma Sprayed Al 2 O 3 3%wt TiO 2 Coating in Abrasion and Erosion Application. Procedia Engineering 2012. - V.41. - PP. 1689 -1695.
19. Goldbaum D., Shockley J. M., Chromik R. R., et.al. The Effect of Deposition Conditions on Adhesion Strength of Ti and Ti6Al4V Cold Spray Splats. J. Therm. Spray Technol. - 2012. - V. 21(2). - P. 288-303.
20. Huang R., Fukanuma H. Study of the Influence of Particle Velocity on Adhesive Strength of Cold Spray Deposits. J. Therm. Spray Technol. - 2012. - V. 21 - № 3-4. - PP. 541 - 549.
21. Imbriglio S. I., Hassani-Gangaraj M., Veysset D., et.al. Adhesion strength of titanium particles to alumina substrates: A combined cold spray and LIPIT study. Surf. Coat. Technol. - 2019. - V. 361. - PP. 403-412.
22. Regel' V. R., Slucker A. Zh., Tomashevskiy E. E.Kineticheskaya priroda prochnosti tverdyh tel // Uspehi fizicheskih nauk. - 1972. - T. - 106. - Vyp. 2. - S.193 - 228.
23. Glasstone S., Laidler K. J., Eyring H. The Theory of Rate Processes. New York, London: McGraw Hill, 1941. - 611 p.
24. Eyring H. Plasticity, and Diffusion as Examples of Absolute Reaction Rates. J. Chem. Phys. - 1936. - V.4. - PP. 283-291.
25. Tobolsky A., Eyring H. Mechanical Properties of Polymeric Materials. J. Chem. Phys. 1943. - V.11. - PP. 125-134.
26. Busse W. F., Lessig E. T., Loughborough D. L., Larrick L. Fatigue of Fabrics. J. Appl. Phys. - 1942. - V.13. - PP.715 - 724.
27. Bartenev G.M. Prochnost' i mehanizm razrusheniya polimerov. M.: Himiya, 1984. - 280 s.
28. Lenhardt M. J., Ong M. T., Choe R., Evenhuis C.R., et. al. Trapping a Diradical Transition State by Mechanochemical Polymer Extension. Science. - 2010. - V. 329. - PP.1057 - 1060.
29. Kucharski T. J., Boulatov R. The physical chemistry of mechanoresponsive polymers. J. Mater. Chem. - 2011. - V.21. - PP. 8237 - 8255.
30. Makarov D. E. Mechanochemistry of biological and synthetic molecules. J. Chem. Phys. - 2016. - V. 144. - P. 030901.
31. Kedziora G. S., Moller J., Berry R., Nepal D. Ab initio molecular dynamics modeling of single polyethylene chains: Scission kinetics and influence of radical under mechanical strain. J. Chem. Phys. - 2021. - V. 155. - P.024102.
32. Fertig III R., Douglas K. Physics-based fatigue life prediction of composite structures. NAFEMS World Congress, 2011. - 21 p.
33. Naderi M., Michopoulos J., Iyyer N., Goel K., Phan N. Multiscale analysis of fatigue crack initiation life for unidirectional composite laminates. Compos. Struct. - 2019. - V. 213. - P.271- 283.
34. Rauhvarger A. B., Yazev V. A., Solov'ev M. E. Model' razrusheniya adgezionnogo soedineniya metall-polimer // Himicheskaya fizika i mezoskopiya. - 2014. - T 16. - №1. C. 88-92.
35. Girifalco L.A., Weizer V.G. Application of the Morse Potential Function to Cubic Metals. Phys. Rev. - 1959. - V. 114. - PP. 687- 690.
36. Neese F. Software update: the ORCA program system, version 4.0. Wiley Interdiscip. Rev.: Comput. Mol. Sci. - 2017. - V. 8. - P. e1327.
