Corrosion and aging of structural materials surface studied by 3D microscopy
Panin S.V., Startsev O.V., Krotov A.S., Medvedev I.M., Frolov A.S. Corrosion and aging of structural materials surface studied by 3D microscopy // Proceedings of VIAM. 2014. No. 12. DOI: 10.18577/2307-6046-2014-0-12-12-12. URL: https://test.viam.ru/en/journal/2014/12/12
Abstract
The 3D microscopic control of materials surface aimed to characterize their corro-sion and aging while exposing in open air is hereby justified. The statistical parameters of the samples surface were identified for each individual type of material and the ex-posure conditions and duration. The binder degradation effect on the surface of polymer composite materials exposed to the direct sunlight is considered.
Reference list
- Kablov E.N., Starcev O.V., Krotov A.S., Kirillov V.N. Klimaticheskoe starenie kompozi-cionnyh materialov aviacionnogo naznachenija. I. Mehanizmy starenija [Climatic aging of composite materials aviation applications. I. Mechanisms of aging] //Deformacija i razrushenie materialov. 2010. №11. S. 19–27.
- Starcev O.V., Kuznecov A.A., Krotov A.S. i dr. Modelirovanie vlagoperenosa v sloistyh plastikah i metalloplastikah [Modelling of moisture transfer in laminates and metal-plastic] //Fizicheskaja mezomehanika. 2002. T. 5. №2. S. 109–114.
- Kurs M.G., Karimova S.A., Mahsidov V.V. Sravnenie korrozionnoj stojkosti deformiruemyh aljuminievyh splavov po rezul'tatam naturnyh i naturno-uskorennyh ispytanij pod navesom [Comparison of the corrosion resistance of aluminum alloy wrought by the results of field and field-accelerated tests under a canopy] //Voprosy materialovedenija. 2013. №1. S. 182–190.
- Starcev O.V., Medvedev I.M., Poljakov V.V., Beljaev I.A. Ocenka korrozionnyh porazhenij aljuminievogo splava metodami fraktal'nogo analiza i mikrotverdosti [Evaluation of corrosion damages aluminum alloy methods of fractal analysis and microhardness] //Korrozija: materialy, zashhita. 2014. №6. P. 43–48.
- Kolobnev N.I., Mahsidov V.V., Samohvalov S.V. i dr. Vlijanie deformacii posle zakalki i rezhimov starenija na mehanicheskie i korrozionnye svojstva splava sistemy Al–Mg–Si–Cu–Zn [Impact deformation after quenching and aging on mechanical modes and corrosion properties of the alloy Al-Mg-Si-Cu-Zn] //Aviacionnye materialy i tehnologii. 2011. №1. S. 12–15.
- Kablov E.N., Kirillov V.N., Zhirnov A.D. i dr. Centry dlja klimaticheskih ispytanij aviacionnyh PKM [The Centers for climatic test aircraft PCM] //Aviacionnaja promyshlennost'. 2009. №4. S. 36–46.
- Panin S.V., Kurs M.G. Naturnye ispytanija nastennyh kondicionerov v jekspluatacionnyh uslovijah atmosfery GCKI VIAM im. G.V. Akimova [Full-scale tests of wall air conditioners in the operating conditions of the atmosphere GTSKI VIAM them. G.V. Akimov] //Aviacionnye materialy i tehnologii. 2013. №2. S. 59–61.
- Starcev O.V., Medvedev I.M., Kurs M.G. Tverdost' kak indikator korrozii aljuminievyh splavov v morskih uslovijah [Hardness indicator aluminum alloy corrosion in marine environments] //Aviacionnye materialy i tehnologii. 2012. №3. S. 16–19.
- Kablov E.N., Starcev O.V., Medvedev I.M., Panin S.V. Korrozionnaja agressivnost' primor-skoj atmosfery. Ch. 1. Faktory vlijanija (obzor) [Corrosiveness seaside atmosphere. Part 1. Factors of Influence (review)] //Korrozija: materialy, zashhita. 2013. №12. S. 6–18.
- Deev I.S., Kobec L.P., Novikov V.U., Kozickij D.V. Vlijanie nekotoryh parametrov tehnologii na strukturoobrazovanie polimernoj matricy v kompozitah [Influence of some parameters of technology on structure of the polymer matrix in composites] //Materialovedenie. 2002. №9. S. 10–21.
- Oglodkov M.S., Hohlatova L.B., Kolobnev N.I. i dr. Vlijanie termomehanicheskoj obrabotki na svojstva i strukturu splava sistemy Al–Cu–Mg–Li–Zn [Effect of thermomechanical treatment on the properties and structure of the alloy of Al-Cu-Mg-Li-Zn] //Aviacionnye materialy i tehnologii. 2010. №4. S. 7–11.
- Antipov V.V., Senatorova O.G., Tkachenko E.A., Vahromov R.O. Aljuminievye deform-iruemye splavy [Aluminium wrought alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 167–182.
- Shul'deshova P.M., Zhelezina G.F. Vlijanie atmosfernyh uslovij i zapylennosti sredy na svojstva konstrukcionnyh organoplastikov [Effects of atmospheric conditions and dust environment on structural properties of organic plastics] //Aviacionnye materialy i tehnologii. 2014. №1. S. 64–68.
- Sokolov I.I., Raskutin A.E. Ugleplastiki i stekloplastiki novogo pokolenija [Carbon and fiberglass new generation] //Trudy VI-AM. 2013. №4 (viam-works.ru).
- Subbotin V.V., Grinev M.A. Opyt primenenija materialov proizvodstva FGUP «VIAM» i Porsher v konstrukcijah uzlov i detalej aviacionnyh silovyh ustanovok iz polimernyh kompozicionnyh materialov [Experience in the use of materials produced by FSUE "VIAM" and Porsher in the construction of units and parts of aircraft powerplants from polymeric composite materials] //Novosti materialovedenija. Nauka i tehnika 2013. №5 (materialsnes.ru).
- Dement'eva L.A., Serezhenkov A.A., Bocharova L.I. i dr. Svojstva kompozicionnyh mate-rialov na osnove kleevyh prepregov [Properties of composite materials based adhesive prepreg] //Klei. Germetiki. Tehnologii. 2012. №6. S. 19–24.
- Kablov E.N., Starcev O.V., Krotov A.S., Kirillov V.N. Klimaticheskoe starenie kompozi-cionnyh materialov aviacionnogo naznachenija. II. Relaksacija ishodnoj strukturnoj neravnovesnosti i gradient svojstv po tolshhine [Climatic aging of composite materials aviation applications. II. Relaxation of the original structural and non-equilibrium properties of gradient across the thickness] //Deformacija i razrushenie materialov. 2012. №6. S. 17–19.
- Kablov E.N., Starcev O.V., Krotov A.S., Kirillov V.N. Klimaticheskoe starenie kompozi-cionnyh materialov aviacionnogo naznachenija. III. Znachimye faktory starenija [Climatic aging of composite materials aviation applications. III. Significant factors of aging] //Deformacija i razrushenie materialov. 2011. №1. S. 34–40.
- Kablov E.N., Starcev O.V., Deev I.S., Nikishin E.F. Svojstva polimernyh kompozicionnyh materialov posle vozdejstvija otkrytogo kosmosa na okolozemnyh orbitah [Properties of polymer composite materials after exposure to the open space in Earth orbits] Ch. I //Vse materialy. Jenciklopedicheskij spravochnik. 2012. №10. S. 2–9.
- Titareva A.S., Kirillov V.N., Starcev O.V. Povedenie materialov v jelementah konstrukcij aviacionnoj tehniki, izgotovlennyh s primeneniem PKM i sistem LKP v uslovijah umerenno teplogo klimata [The behavior of materials in structural elements of aircraft, manufactured using PCM systems and LCP in a moderately warm climate] //Aviacionnye materialy i tehnologii. 2013. №S2. S. 81–85.
- Starcev O.V., Krotov A.S., Senatorova O.G. i dr. Sorbcija i diffuzija vlagi v sloistyh metallopolimernyh kompozicionnyh materialah tipa «SIAL» [Sorption and diffusion of moisture in layered metal-polymer composite materials such as "Sial"] //Materialovedenie. 2011. №12. S. 38–44.
- Startsev O.V., Isupov V.V., Nikishin E.F. The Gradient of Mechanical Characteristics Across the Thickness of Composite Laminates After Exposure to a Low Earth Orbit Environment //Polymer Composites. 1998. V. 19. №1. P. 65–70.
- Startsev O.V., Krotov A.S., Golub P.D. Effect of Climatic and Radiation Ageing on Prop-erties of Glass Fibre Reinforced Epoxy Laminates //Polymers and Polymer Composites. 1998. V. 6. №7. P. 481–488.
- Starcev O.V., Anihovskaja L.I., Litvinov A.A., Krotov A.S. Povyshenie dostovernosti prognozirovanija svojstv polimernyh kompozicionnyh materialov pri termovlazhnostnom starenii [Increasing the reliability of predicting the properties of polymer composites with hydrothermal aging] //DAN. 2009. T. 428. №1. S. 56–60.
