Criterial expert assessment of the various technologies efficient potential in meso scale quality diagnostics of the materials and products made of them
Authors: Barzov A.A., Korneeva V.M., Puzakov V.S., Korneev I.S.
Published in issue: #5(149)/2024
DOI: 10.18698/2308-6033-2024-5-2358
Category: Aviation and Rocket-Space Engineering | Chapter: Design, construction and production of aircraft
The paper proposes an expert-analytical approach to predicting the performance potential of the information and physical technologies. It is based on analyzing the example of progressive methods in the express diagnostics of the surface layer functional quality of various materials and products made of them using the meso scale diagnostic tools to identify damage to structure of the objects under study. Estimated efficiency potential parameters of various meso scale diagnostic methods are formulated. The expert analysis apparatus is ranking their rating. In particular, the paper shows that the meso scale diagnostic fatigue-magnetic technology provides the most significant scientific and applied potential in solving the information and physical problems in engineering surface structures for the products made of ferromagnetic materials. Specific design and technological schemes are proposed illustrating capabilities of this type of the operational meso scale diagnostics.
EDN OQESGU
References
[1] Barzov A.A., Kuznetsov A.V., Puzakov V.S., Sysoev N.N. Prediktivnye mezotekhnologii [Predictive meso scale technologies]. Moscow, Lomonosov MSU, Faculty of Physics, 2022, 226 p.
[2] Klyuev V.V., Sosnin A.V., Kovalev A.V. et al. Nerazrushayshchiy kontrol i diagnostika [Non-destructive testing and diagnostics]. V.V. Klyuev, ed. Moscow, Mashinostroenie Publ., 2003, 656 p.
[3] Kolpakov V.I., Ilyukhina A.A. Osobennosti matematicheskogo modelirovaniya razrusheniya konstruktsiy iz raznykh materialov pod deystviem vysokoskorostnoy gidroabrazivnoy strui [Features of mathematical modeling the destruction of structures of different materials under the high-speed waterjet]. Inzhenerny zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2019, iss. 9. https://doi.org/10.18698/2308-6033-2019-9-1913
[4] Andrianov Yu.M., Subetto A.I. Kvalimetriya v priborostroenii i mashinostroenii [Qualimetry in instrumentation and mechanical engineering]. Leningrad, Mashinostroenie Publ., 1990, 225 p.
[5] Barzov A.A., Korneeva V.M., Korneev S.S. Ekspertnoe obosnovanie primeneniya ultrastruynogo sposoba opredeleniya defektnosti struktury neodnorodnykh materialov [Expert justification of the use of the ultrajet method for determining defectiveness of the heterogeneous material structure]. Svarochnoe proizvodstvo — Welding Production, 2022, no. 2, pp. 55–60. https://doi.org/10.34641/TM.2021.231.9.031
[6] Busheva A.G., Feofanov A.N. Otbor uchastnikov v sostav ekspertnykh grupp s pomoshchyu metoda mnogokriterialnoy optimizatsii [Selection of participants in expert groups using the method of multicriteria optimization]. Vestnik MGTU “STANKIN” — Vestnik MSTU “STANKIN”, 2021, no. 3 (5), pp. 22–27.
[7] Cherepanov G.P. Mekhanika khrupkogo razrusheniya [Mechanics of brittle destruction]. Moscow, Nauka Publ., 1974, 640 p.
[8] Freudenthal A.M. Statisticheskiy podkhod k khrupkomu razrusheniyu. T. 2. Razrushenie [Statistical approach to brittle destruction. Vol. 2. Destruction]. Moscow, Mir Publ., 1975, pp. 616–645.
[9] Regel V.R., Slutsker A.I., Tomashevsky E.E. Kineticheskaya priroda prochnosti tverdykh tel [Kinetic nature of the solid body strength]. Moscow, Nauka Publ., 1974, 560 p.
[10] Polovko A.M., Gurov S.V. Osnovnye teorii nadezhnosti. Praktikum [Basic theories of reliability. Practicum]. 2nd ed., rev. and enl. St. Petersburg, BKhV-Petersburg Publ., 2006, 704 p.