The method of accelerated laboratory tests of aluminum alloys for determination of their corrosion resistance in conditions of the sea atmosphere
The method of laboratory tests of aluminum alloys for determination of corrosion resistance depending on duration of moistening, temperature and deposition rate of chlorides is offered. When developing test method mathematical planning of experiment was used. As a result of research of mathematical models, dependences of corrosion losses on duration of moistening and sedimentation of chlorides are received at different values of temperature. The received results give preliminary rough estimate of corrosion resistance of aluminum alloys at operation in conditions of the sea atmosphere. In article results of works on the complex scientific direction 18.3. «Мodeling and forecasting of climatic resistance» are provided («The strategic directions of development of materials and technologies of their processing for the period till 2030»)
- Kablov E.N. Innovacionnye razrabotki FGUP «VIAM» GNC RF po realizacii «Strategicheskih napravlenij razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda» [Innovative developments of FSUE «VIAM» SSC of RF on realization of «Strategic directions of the development of materials and technologies of their processing for the period until 2030»] // Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33.
- Kablov E.N., Ospennikova O.G., Lomberg B.S. Strategicheskie napravleniya razvitiya konstrukcionnyh materialov i tehnologij ih pererabotki dlya aviacionnyh dvigatelej nastoyashhego i budushhego [The strategic directions of development of constructional materials and technologies of their processing for aircraft engines of the present and the future] // Avtomaticheskaya svarka. 2013. №10. S. 23–32.
- Karimova S.A., Kutyrev A.E., Fomina M.A., Chesnokov D.V. Modelirovanie processa vozdejstviya agressivnyh komponentov promyshlennoj atmosfery na metallicheskie materialy v kamere solevogo tumana [Modeling of process of influence of aggressive components of the industrial atmosphere on metal materials in the salt spray chamber] //Aviacionnye materialy i tehnologii. 2015. №1 (34). 86–94.
- Kablov E.N. Korroziya ili zhizn [Corrosion or life] // Nauka i zhizn. 2012. №11. S. 16–21.
- Kablov E.N., Startsev O.V. Fundamentalnye i prikladnye issledovaniya korrozii i stareniya materialov v klimaticheskih usloviyah (obzor) [The basic and applied research in the field of corrosion and ageing of materials in natural environments (review)] // Aviacionnye materialy i tehnologii. 2015. №4 (37). S. 38–52. DOI: 10.18577/2071-9140-2015-0-4-38-52.
- Kablov E.N. Aviacionnoe materialovedenie: itogi i perspektivy [Aviation materials science: results and perspectives] // Vestnik Rossijskoj akademii nauk. 2002. T. 72. №1. S. 3–12.
- Antipov V.V. Strategiya razvitiya titanovyh, magnievyh, berillievyh i alyuminievyh splavov [Strategy of development of titanium, magnesium, beryllium and aluminum alloys] // Aviacionnye materialy i tehnologii. 2012. №S. S. 157–167.
- Panchenko Yu.M., Kovtanyuk V.V., Nikolaeva L.A. Dolgosrochnye prognozy korrozionnyh poter' plastin i provolochnyh spiralej tehnicheski vazhnyh metallov v razlichnyh regionah mira. Ch. 2. [Long-term forecasts of corrosion losses of plates and wire spirals of technically important metals in different regions of the world. Part 2.] // Korroziya: materialy, zashhita. 2013. №8. S. 8–15.
- Mihajlovskij Yu.N., Strekalov V.P., Agafonov V.V. Model atmosfernoy korrozii metallov, uhtyvayushchaya meteorologicheskie i aerohimicheskie kharakteristiki [Model of atmospheric corrosion of the metals, considering meteorological and aero chemical characteristics] // Zashhita metallov. 1980 T. 16. №4. S. 397–413.
- Mihajlov A.A., Strekalov P.V. Modelirovanie atmosfernoj korrozii materialov i vidy funkcij doza-otvet [Modeling of atmospheric corrosion of materials and types of functions dose–answer] // Korroziya: materialy, zashhita. 2006. №3. S. 2–13.
- Agafonov V.V. Razrabotka fiziko-matematicheskoj modeli atmosfernoj korrozii metallov i metoda prognozirovaniya ih korrozionnoj stojkosti v razlichnyh klimaticheskih rajonah: avtoref. dis. … kand. tehn. nauk [Development of physical and mathematical model of atmospheric corrosion of metals and method of forecasting of their corrosion resistance in different climatic areas: thesis of Cand. Tech. Sci.]. M.: NIFHI, 1978. 25 s.
- Panchenko Yu.M., Shuvahina L.A., Mihajlovskij Yu.N. Zavisimost skorosti atmosfernoy korrozii metallov ot klimaticheskikh usloviy raionov Dalnege Vostoka [Dependence of speed of atmospheric corrosion of metals on weather conditions of regions of the Far East] // Zashhita metallov. 1984. T. 20. №6. S. 851–863.
- Strekalov P.V., Vu Din' Vuj. Matematicheskaya model i raschet veroyatnoj skorosti atmosfernoj korrozii metallov v tropicheskom i umerennom climate [Mathematical model and calculation of probable speed of atmospheric corrosion of metals in tropical and temperate climate] // Zashhita metallov. T. 21. №4. S. 525–533.
- Panchenko Yu.M. Strekalov P.V., Zhilikov V.P., Karimova S.A., Berezina L.G. Zavisimost korrozionnoj stojkosti splava D16 ot zasolennosti i meteoparametrov primorskoj atmosfery [Dependence of corrosion resistance of alloy Д16 on salinity and meteoparameters of the seaside atmosphere] // Korroziya: materialy, zashhita. 2011. №8. S. 1–12.
- Karimova S.A., Zhilikov V.P., Mihajlov A.A., Chesnokov D.V., Igonin T.N., Karpov V.A. Naturno-uskorennye ispytaniya alyuminievyh splavov v usloviyah vozdejstviya morskoj atmosfery [Natural accelerated tests of aluminum alloys in the conditions of influence of the sea atmosphere] // Korroziya: materialy, zashhita. 2012. №10. S. 1–3.
