Determination of aviation gasolines corrosion aggression

Kravchenko N.G., Petrova V.A.
Kravchenko N.G., Petrova V.A. Determination of aviation gasolines corrosion aggression // Proceedings of VIAM. 2016. No. 11. DOI: 10.18577/2307-6046-2016-0-11-10-10. URL: https://test.viam.ru/en/journal/2016/11/10
Keywords
aviation gasolines, corrosion aggression, fuel systems, copper plate.
Abstract

Different existing test methods on corrosion aggression of aviation gasolines are given in the work. The conditions influencing corrosion aggression of gasolines are analyzed. Complex test methods executed at FSUE «VIAM» on metal materials of the aircraft engine, including different influencing factors, such as elevated temperature and humidity are considered. Results on comprehensive tests are given in this work on determination of corrosion aggression and acidity of Avgas 100LL gasoline. On the basis of the developed technique the internal FSUE «VIAM» STO 1-595-7-503–2015 standard «Method of determination of corrosion aggression of gasoline» was published. The work is executed within the implementation of the complex scientific direction 2.2. «Qualification and researches of materials» («The strategic directions of development of materials and technologies of their processing for the period till 2030»)

Reference list
  1. 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 develop-ment of materials and technologies of their processing for the period until 2030»] //Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33.
  2. Kablov E.N. Aviakosmicheskoe materialovedenie [Aerospace materials science] // Vse materialy. Enciklopedicheskij spravochnik. 2008. №3. C. 2–14.
  3. Kablov E.N., Startsev O.V., Medvedev I.M. Obzor zarubezhnogo opyta issledovanij korrozii i sredstv zashhity ot korrozii [Review of international experience on corrosion and corrosion protection] //Aviacionnye materialy i tehnologii. 2015. №2 (35). S. 76–87.
  4. Kablov E.N. Korroziya ili zhizn [Corrosion or life] // Nauka i zhizn. 2012. №11. S. 16–21.
  5. Chulkov P.V. Motornye topliva: resursy, kachestvo, zameniteli: spravochnik [Motor fuels: resources, quality, substitutes: directory]. M.: Politehnika, 1998. S. 162–185.
  6. Shkolnikov V.M. Topliva. Smazochnye materialy. Tehnicheskie zhidkosti. Assortiment i primenenie [Fuels. Lubricants. Technical liquids. Range and application]. M.: Tehinform, 1999. S. 62–75.
  7. Trudy 25 GosNII MO RF [Works 25 of the State research institute of Defense agency of the Russian Federation] / M-vo oborony Ros. Federacii, 25 Gos. Nauch.-issled. In-t Minoborony Rossii. M.: Graliya. 2008. Vyp. 54. S. 267–269.
  8. Barsukov V.I. Plamenno-emissionnye i atomno-absorbcionnye metody analiza i instrumentalnye sposoby povysheniya ih chuvstvitelnosti [Flame and emission and nuclear and absorbing methods of the analysis and tool ways of increase of their sensitivity]. M.: Mashinostroenie-1, 2004. 172 s.
  9. Butina N.P., Zamyatina E.R., Zorina L.P. Primenenie atomno-absorbcionnoj spektroskopii dlya opredeleniya medi, cinka, magniya i kalciya v maslah i prisadkah [Application of nuclear and absorbing spectroscopy for definition of copper, zinc, magnesium and calcium in oils and additives] // Neftepererabotka i neftehimiya. 1997. №6. S. 21–23.
  10. Privalenko A.N., Balak G.M., Bagramova E.K. Opredelenie soderzhaniya metallov v neftyanyh toplivah metodom atomno-absorbcionnoj spektrometrii [Definition of the content of metals in oil fuels method of nuclear and absorbing spectrometry] // Tez. dokl. Mezhdunar. nauch.-tehnich. konf. / M-vo oborony Ros. Federacii, 25 Gos. Nauch.-issled. In-t Minoborony Rossii. 2014. C. 298–306.
  11. Butina N.P., Zorina L.P. Atomno-absorbcionnoe opredelenie elementov v tehnologicheskih otlozheniyah s ispolzovaniem vozdushno-acetilenovogo plameni [Nuclear and absorbing definition of elements in technological deposits with use of acetylene-air flame] // Neftepererabotka i neftehimiya. 1998. №1. C. 24–26.
  12. Mikov D.A., Kravchenko N.G., Petrova V.A., Kutyrev A.E. Opredelenie soderzhaniya medi v aviacionnyh toplivah metodom atomno-absorbcionnoj spektrometrii [Quantitative analysis of copper in aviation fuel by atomic absorption spectrometry] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №10. St. 12. Available at: http://www.viam-works.ru (accessed: February 25, 2016). DOI: 10.18577/2307-6046-2015-0-10-12-12.
  13. Zagvozdkina T.N., Karachevtsev F.N., Dvoretskov R.M. Primenenie modelnyh rastvorov v atomno-absorbcionnom analize [Application of model solutions for ICP-AES procedures] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №3. St. 10. Available at: http://www.viam-works.ru (accessed: February 25, 2016). DOI: 10.18577/2307-6046-2015-0-3-10-10.
  14. Dvoretskov R.M., Karachevtsev F.N., Isachenko Ya.A., Zagvozdkina T.N. Opredelenie osnovnyh i legiruyushhih elementov v termostabilnyh magnitnyh materialah sistemy RZM–Fe–Co–B metodom AES-ISP [ICP-AES determination of basic and alloying elements in thermostable magnetic materials of REM–Fe–Co–B system] // Trudy VIAM : elektron. nauch.-tehnich. zhurn. 2014. №11. St. 10. Available at: http://viam-works.ru (accessed: February 25, 2016). DOI: 10.18577/2307-6046-2014-0-11-10-10.
  15. Prajs V. Analiticheskaya atomno-absorbcionnaya spektroskopiya [Analytical nuclear and absorbing spectroscopy]. M.: Mir, 1976. 358 c.