Articles
1.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-1-1
УДК 629.7.023.224
Kosmin A.A., Budinovskiy S.A., Gayamov A.M., Smirnov A.A.
HEAT-RESISTANT COATING FOR NEW INTERMETALLIC NICKEL-BASED SUPERALLOY VIN3
New heat-resistant coating for protection against high-temperature oxidation of tur-bine parts made of intermetallic nickel-based superalloy working at 1100–1200°С is developed. Research of heat-resistance, evolution of composition and structure of doped ion-plasma coatings for intermetallic superalloy is made.
Reference list
1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
2. Inozemcev A.A., Nihamkin M.A., Sandrackij V.L. Osnovy konstruirovanija aviacionnyh dvigatelej i jenergeticheskih ustanovok [Basis for designing aircraft engines and power plants]. M.: Mashinostroenie. 2008. T. 2. S. 159–192.
3. Kablov E.N., Sidorov V.V., Kablov D.E., Rigin V.E., Gorjunov A.V. Sovremennye tehnologii poluchenija prutkovyh zagotovok iz litejnyh zharoprochnyh splavov novogo pokolenija [Modern technologies for bar stock of casting superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 97−105.
4. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemel'nye jelementy – materialy sovremennyh i budushhih vysokih tehnologij [Rare metals and rare earth elements – materials of current and future high-tech] //Trudy VIAM. 2013. №2. St. 01 (viam-works.ru).
5. Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Nikelevye litejnye zharoprochnye splavy novogo pokolenija [Casting nickel superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 36–52.
6. Bazyleva O.A., Arginbaeva Je.G., Turenko E.Ju. Zharoprochnye litejnye intermetallidnye splavy [Heat-resistant casting intermetallic alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 57–60.
7. Kablov E.N., Bondarenko Ju.A., Echin A.B., Surova V.A., Kablov D.E. Razvitie processa napravlennoj kristallizacii lopatok GTD iz zharoprochnyh i intermetallidnyh splavov s monokristallicheskoj strukturoj [The development process of directional solidification of high-temperature gas turbine engine blades and intermetallic alloys with a single-crystal structure] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 20–25.
8. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434067 Ros. Federacija; opubl. 01.07.2010.
9. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434068 Ros. Federacija; opubl. 05.10.2010.
10. Zharoprochnyj splav na nikelevoj osnove dlja monokristallicheskogo lit'ja [Superalloy based on nickel single crystal casting]: pat. 2439184 Ros. Federacija; opubl. 05.10.2010.
11. Kablov E.N., Ospennikova O.G., Bazyleva O.A. Materialy dlja vysokoteplonagruzhennyh detalej gazoturbinnyh dvigatelej [Materials for high-thermal components of gas turbine engines] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 13–19.
12. Kablov E.N., Mubojadzhjan S.A. Zharostojkie i teplozashhitnye pokrytija dlja lopatok turbiny vysokogo davlenija perspektivnyh GTD [Heat-resistant and heat-protective coatings for high-pressure turbine blades looking GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 60–70.
13. Kablov E.N., Mubojadzhjan S.A. Ionnoe travlenie i modificirovanie poverhnosti ot-vetstvennyh detalej mashin v vakuumno-dugovoj plazme [Ion etching and surface modification of critical components of machinery on a vacuum arc plasma] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 149–163.
14. Kablov E.N., Muboyadzhyan S.A. Heat-resistant coatings for the high-pressure turbine blades of promising gtes //Russian metallurgy (Metally). 2012. №1. S. 1–7.
15. Matveev P.V., Budinovskij S.A., Mubojadzhjan S.A., Kos'min A.A. Zashhitnye zharostojkie pokrytija dlja splavov na osnove intermetallidov nikelja [Heat-resistant protective coatings for intermetallic alloys based on nickel] //Aviacionnye materialy i tehnologii. 2013. №2. S. 12–15.
16. Mubojadzhjan S.A., Aleksandrov D.A., Gorlov D.S., Egorova L.P., Bulavinceva E.E. Zashhitnye i uprochnjajushhie ionno-plazmennye pokrytija dlja lopatok i drugih otvetstvennyh detalej kompressora GTD [Protecting and strengthening the ion-plasma coatings for blades and other parts of responsibility compressor GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 71–81.
2. Inozemcev A.A., Nihamkin M.A., Sandrackij V.L. Osnovy konstruirovanija aviacionnyh dvigatelej i jenergeticheskih ustanovok [Basis for designing aircraft engines and power plants]. M.: Mashinostroenie. 2008. T. 2. S. 159–192.
3. Kablov E.N., Sidorov V.V., Kablov D.E., Rigin V.E., Gorjunov A.V. Sovremennye tehnologii poluchenija prutkovyh zagotovok iz litejnyh zharoprochnyh splavov novogo pokolenija [Modern technologies for bar stock of casting superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 97−105.
4. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemel'nye jelementy – materialy sovremennyh i budushhih vysokih tehnologij [Rare metals and rare earth elements – materials of current and future high-tech] //Trudy VIAM. 2013. №2. St. 01 (viam-works.ru).
5. Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Nikelevye litejnye zharoprochnye splavy novogo pokolenija [Casting nickel superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 36–52.
6. Bazyleva O.A., Arginbaeva Je.G., Turenko E.Ju. Zharoprochnye litejnye intermetallidnye splavy [Heat-resistant casting intermetallic alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 57–60.
7. Kablov E.N., Bondarenko Ju.A., Echin A.B., Surova V.A., Kablov D.E. Razvitie processa napravlennoj kristallizacii lopatok GTD iz zharoprochnyh i intermetallidnyh splavov s monokristallicheskoj strukturoj [The development process of directional solidification of high-temperature gas turbine engine blades and intermetallic alloys with a single-crystal structure] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 20–25.
8. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434067 Ros. Federacija; opubl. 01.07.2010.
9. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434068 Ros. Federacija; opubl. 05.10.2010.
10. Zharoprochnyj splav na nikelevoj osnove dlja monokristallicheskogo lit'ja [Superalloy based on nickel single crystal casting]: pat. 2439184 Ros. Federacija; opubl. 05.10.2010.
11. Kablov E.N., Ospennikova O.G., Bazyleva O.A. Materialy dlja vysokoteplonagruzhennyh detalej gazoturbinnyh dvigatelej [Materials for high-thermal components of gas turbine engines] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 13–19.
12. Kablov E.N., Mubojadzhjan S.A. Zharostojkie i teplozashhitnye pokrytija dlja lopatok turbiny vysokogo davlenija perspektivnyh GTD [Heat-resistant and heat-protective coatings for high-pressure turbine blades looking GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 60–70.
13. Kablov E.N., Mubojadzhjan S.A. Ionnoe travlenie i modificirovanie poverhnosti ot-vetstvennyh detalej mashin v vakuumno-dugovoj plazme [Ion etching and surface modification of critical components of machinery on a vacuum arc plasma] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 149–163.
14. Kablov E.N., Muboyadzhyan S.A. Heat-resistant coatings for the high-pressure turbine blades of promising gtes //Russian metallurgy (Metally). 2012. №1. S. 1–7.
15. Matveev P.V., Budinovskij S.A., Mubojadzhjan S.A., Kos'min A.A. Zashhitnye zharostojkie pokrytija dlja splavov na osnove intermetallidov nikelja [Heat-resistant protective coatings for intermetallic alloys based on nickel] //Aviacionnye materialy i tehnologii. 2013. №2. S. 12–15.
16. Mubojadzhjan S.A., Aleksandrov D.A., Gorlov D.S., Egorova L.P., Bulavinceva E.E. Zashhitnye i uprochnjajushhie ionno-plazmennye pokrytija dlja lopatok i drugih otvetstvennyh detalej kompressora GTD [Protecting and strengthening the ion-plasma coatings for blades and other parts of responsibility compressor GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 71–81.
2.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-2-2
УДК 669.715:669.018.28
Goncharenko E.S., Trapeznikov A.V., Ogorodov D.V.
ALUMINIUM CASTING ALLOYS (оn the 100th anniversary of the birth of M.B. Altman)
The article describes the main methods of refining and modification of cast aluminum alloys proposed by M.B. Altman. The basic theoretical and scientific-technical provisions are quoted, systematized M.B. Altman. The classification of casting aluminium alloys on purpose were considered, dynamics of their development were shown. Modern casting aluminium alloys with high manufacturability and improved me-chanical properties were presented, as well as perspective directions of development of foundry of aluminium alloys in the coming years.
Reference list
1. Kolobnev I.F., Al'tman M.B. Gazovaja poristost' i metody bor'by s nej v aljuminievyh otlivkah [Gas porosity and methods of combating it in aluminum castings]. M.: ITJeIN. 1948. 48 s.
2. Al'tman M.B., Lebedev A.A., Chuhrov M.V. Plavka i lit'e legkih splavov [Melting and casting of light alloys]. M.: Metallurgija. 1969. 680 s.
3. Al'tman M.B., Stromskaja N.P. Povyshenie svojstv standartnyh litejnyh aljuminievyh splavov [Raising the standard properties of cast aluminum alloys]. M.: Metallurgija. 1984. 128 s.
4. Jeskin G.I. Ul'trazvukovaja obrabotka rasplavlennogo aljuminija [Ultrasonic treatment of molten aluminum]. M.: Metallurgija. 1965. 224 s.
5. Al'tman M.B. Nemetallicheskie vkljuchenija v aljuminievyh splavah [Non-metallic in-clusions in aluminum alloys]. M.: Metallurgija. 1965. 127 s.
6. Al'tman M.B. Metallurgija litejnyh aljuminievyh splavov [Metallurgy of cast aluminum alloys]. M.: Metallurgija. 1972. 153 s.
7. Branchukov D.N., Panfilov A.V. Rafinirovanie aljuminievyh splavov novymi kombinirovannymi fljusami [Refining aluminum alloys combined with new fluxes] //Vse materialy. Jenciklopedicheskij spravochnik. 2009. №3. S. 10–15.
8. Kolobnev I.F. Termicheskaja obrabotka aljuminievyh splavov [Heat treatment of alumi-num alloys]. M.: Metallurgija. 1966. 394 s.
9. Kolobnev I.F. Zharoprochnost' litejnyh aljuminievyh splavov [Heat resistance of cast aluminum alloys]. M.: Metallurgija. 1973. 320 s.
10. Lebedev V.M., Mel'nikov A.V., Postnikov N.S., Cherkasov V.V. Vysokojeffektivnye litejnye aljuminievye splavy [High-performance aluminum casting alloys] /V sb.: Aviacionnye materialy na rubezhe XX–XXI vekov. M.: VIAM. 1994. S. 101–105.
11. Aristova N.A., Kolobnev I.F. Termicheskaja obrabotka litejnyh aljuminievyh splavov [Heat treatment of cast aluminum alloys]. M.: Metallurgija. 1977. 144 s.
12. Goncharenko E.S., Kornysheva I.S. Litejnyj aljuminievyj splav AL4MS dlja agregatnogo lit'ja [Foundry aluminum alloy casting for an aggregate AL4MS] //Tehnologija legkih splavov. 2009. №3. S. 99–101.
13. Goncharenko E.S., Kornysheva I.S. Aviacionnye otlivki, poluchennye lit'em po gazificiruemym modeljam [Aviation casting obtained by casting on gasified models] //Litejnoe proizvodstvo. 2011. №6. S. 21–23.
14. Gao Chengksun i dr. Lit'e po gazificiruemym modeljam otlivok iz aljuminievyh splavov [Lost foam casting of aluminum alloy castings] //Lit'e i cvetnye splavy. 2010. T. 30. №8. S. 746–747.
15. Goncharenko E.S., Kornysheva I.S. Perspektivy primenenija otlivok iz aljuminievyh splavov [Prospects of application of aluminum alloy castings] //Litejnoe proizvodstvo. 2012. №1. S. 21–23.
16. Goncharenko E.S., Kornysheva I.S. Otlivki iz aljuminievyh splavov. Issledovanija, materialy, tehnologii [Casting of aluminum alloys. Research, materials, technology] //Litejnoe proizvodstvo. 2013. №2. S. 2–4.
17. Dujunova V.A., Goncharenko E.S., Muhina I.Ju., Uridija Z.P., Volkova E.F. Nauchnoe nasledie akademika I.N. Fridljandera. Sovremennye issledovanija magnievyh i litejnyh aljuminievyh splavov [Scientific Heritage of Academician I.N. Friedlander. Modern studies of magnesium and aluminum alloy casting] //Cvetnye metally. 2013. №9. S. 71–78.
18. Stepanov A.V., Kosarina E.I., Savvina N.A., Usachev V.E. Makro- i mikroporistost' v splavah na osnove aljuminija i nikelja, obnaruzhenie ee rentgenoskopicheskimi metodami nerazrushajushhego kontrolja [Macro- and micro-porosity in alloys based on aluminum and nickel, her discovery of X-ray non-destructive testing] //Aviacionnye materialy i tehnologii. 2012. №S. S. 423–430.
19. Chirkov E.F. Temp razuprochnenija pri nagrevah – kriterij ocenki zharoprochnosti konstrukcionnyh splavov sistem Al–Cu–Mg i Al–Cu [Temp softening when heated – evaluation criterion resistance of building systems alloys Al–Cu–Mg and Al–Cu] //Aviacionnye materialy i tehnologii. 2013. №S2. S. 11–19.
20. Kablov E.N. Osnovnye itogi i napravlenija razvitija materialov dlja perspektivnoj aviacionnoj tehniki [Main outcomes and directions of development of materials for advanced aircraft] /V sb. 75 let. Aviacionnye materialy. Izbrannye trudy «VIAM» 1932–2007: Jubilejnyj nauch.-tehnich. sb. M. VIAM. 2007. S. 20–26.
21. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
22. Kornysheva I.S., Volkova E.F., Goncharenko E.S., Muhina I.Ju. Perspektivy primenen-ija magnievyh i litejnyh aljuminievyh splavov [Prospects of application of magnesium and aluminum alloy casting] //Aviacionnye materialy i tehnologii. 2012. №S. S. 212–222.
23. Antipov V.V. Strategija razvitija titanovyh, magnievyh, berillievyh i aljuminievyh splavov [The development strategy of titanium, magnesium, beryllium and aluminum alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 157–167.
24. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemel'nye jelementy – materialy sovremennyh i vysokih tehnologij budushhego [Rare metals and rare earth elements – modern materials and high-tech future] //Trudy VIAM. 2013. №2. St. 01 (viam-works.ru).
25. Semenov B.I., Kushtarov K.M. Proizvodstvo izdelij iz metalla v tverdozhidkom sostojanii [Manufacture of metal in the solid-liquid state]. M.: Izd-vo MGTU im. N.Je. Baumana. 2010. 223 s.
2. Al'tman M.B., Lebedev A.A., Chuhrov M.V. Plavka i lit'e legkih splavov [Melting and casting of light alloys]. M.: Metallurgija. 1969. 680 s.
3. Al'tman M.B., Stromskaja N.P. Povyshenie svojstv standartnyh litejnyh aljuminievyh splavov [Raising the standard properties of cast aluminum alloys]. M.: Metallurgija. 1984. 128 s.
4. Jeskin G.I. Ul'trazvukovaja obrabotka rasplavlennogo aljuminija [Ultrasonic treatment of molten aluminum]. M.: Metallurgija. 1965. 224 s.
5. Al'tman M.B. Nemetallicheskie vkljuchenija v aljuminievyh splavah [Non-metallic in-clusions in aluminum alloys]. M.: Metallurgija. 1965. 127 s.
6. Al'tman M.B. Metallurgija litejnyh aljuminievyh splavov [Metallurgy of cast aluminum alloys]. M.: Metallurgija. 1972. 153 s.
7. Branchukov D.N., Panfilov A.V. Rafinirovanie aljuminievyh splavov novymi kombinirovannymi fljusami [Refining aluminum alloys combined with new fluxes] //Vse materialy. Jenciklopedicheskij spravochnik. 2009. №3. S. 10–15.
8. Kolobnev I.F. Termicheskaja obrabotka aljuminievyh splavov [Heat treatment of alumi-num alloys]. M.: Metallurgija. 1966. 394 s.
9. Kolobnev I.F. Zharoprochnost' litejnyh aljuminievyh splavov [Heat resistance of cast aluminum alloys]. M.: Metallurgija. 1973. 320 s.
10. Lebedev V.M., Mel'nikov A.V., Postnikov N.S., Cherkasov V.V. Vysokojeffektivnye litejnye aljuminievye splavy [High-performance aluminum casting alloys] /V sb.: Aviacionnye materialy na rubezhe XX–XXI vekov. M.: VIAM. 1994. S. 101–105.
11. Aristova N.A., Kolobnev I.F. Termicheskaja obrabotka litejnyh aljuminievyh splavov [Heat treatment of cast aluminum alloys]. M.: Metallurgija. 1977. 144 s.
12. Goncharenko E.S., Kornysheva I.S. Litejnyj aljuminievyj splav AL4MS dlja agregatnogo lit'ja [Foundry aluminum alloy casting for an aggregate AL4MS] //Tehnologija legkih splavov. 2009. №3. S. 99–101.
13. Goncharenko E.S., Kornysheva I.S. Aviacionnye otlivki, poluchennye lit'em po gazificiruemym modeljam [Aviation casting obtained by casting on gasified models] //Litejnoe proizvodstvo. 2011. №6. S. 21–23.
14. Gao Chengksun i dr. Lit'e po gazificiruemym modeljam otlivok iz aljuminievyh splavov [Lost foam casting of aluminum alloy castings] //Lit'e i cvetnye splavy. 2010. T. 30. №8. S. 746–747.
15. Goncharenko E.S., Kornysheva I.S. Perspektivy primenenija otlivok iz aljuminievyh splavov [Prospects of application of aluminum alloy castings] //Litejnoe proizvodstvo. 2012. №1. S. 21–23.
16. Goncharenko E.S., Kornysheva I.S. Otlivki iz aljuminievyh splavov. Issledovanija, materialy, tehnologii [Casting of aluminum alloys. Research, materials, technology] //Litejnoe proizvodstvo. 2013. №2. S. 2–4.
17. Dujunova V.A., Goncharenko E.S., Muhina I.Ju., Uridija Z.P., Volkova E.F. Nauchnoe nasledie akademika I.N. Fridljandera. Sovremennye issledovanija magnievyh i litejnyh aljuminievyh splavov [Scientific Heritage of Academician I.N. Friedlander. Modern studies of magnesium and aluminum alloy casting] //Cvetnye metally. 2013. №9. S. 71–78.
18. Stepanov A.V., Kosarina E.I., Savvina N.A., Usachev V.E. Makro- i mikroporistost' v splavah na osnove aljuminija i nikelja, obnaruzhenie ee rentgenoskopicheskimi metodami nerazrushajushhego kontrolja [Macro- and micro-porosity in alloys based on aluminum and nickel, her discovery of X-ray non-destructive testing] //Aviacionnye materialy i tehnologii. 2012. №S. S. 423–430.
19. Chirkov E.F. Temp razuprochnenija pri nagrevah – kriterij ocenki zharoprochnosti konstrukcionnyh splavov sistem Al–Cu–Mg i Al–Cu [Temp softening when heated – evaluation criterion resistance of building systems alloys Al–Cu–Mg and Al–Cu] //Aviacionnye materialy i tehnologii. 2013. №S2. S. 11–19.
20. Kablov E.N. Osnovnye itogi i napravlenija razvitija materialov dlja perspektivnoj aviacionnoj tehniki [Main outcomes and directions of development of materials for advanced aircraft] /V sb. 75 let. Aviacionnye materialy. Izbrannye trudy «VIAM» 1932–2007: Jubilejnyj nauch.-tehnich. sb. M. VIAM. 2007. S. 20–26.
21. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
22. Kornysheva I.S., Volkova E.F., Goncharenko E.S., Muhina I.Ju. Perspektivy primenen-ija magnievyh i litejnyh aljuminievyh splavov [Prospects of application of magnesium and aluminum alloy casting] //Aviacionnye materialy i tehnologii. 2012. №S. S. 212–222.
23. Antipov V.V. Strategija razvitija titanovyh, magnievyh, berillievyh i aljuminievyh splavov [The development strategy of titanium, magnesium, beryllium and aluminum alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 157–167.
24. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemel'nye jelementy – materialy sovremennyh i vysokih tehnologij budushhego [Rare metals and rare earth elements – modern materials and high-tech future] //Trudy VIAM. 2013. №2. St. 01 (viam-works.ru).
25. Semenov B.I., Kushtarov K.M. Proizvodstvo izdelij iz metalla v tverdozhidkom sostojanii [Manufacture of metal in the solid-liquid state]. M.: Izd-vo MGTU im. N.Je. Baumana. 2010. 223 s.
3.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-3-3
УДК 629.7.018.4
Basargin O.V., Shcheglova T.M., Nikitina V.J., Svistunov V.I.
HIGH-TEMPERATURE TENSILE STRENGTH DETERMINATION OF SINGLE CRYSTAL ALUMINA FIBERS
The description of high-temperature tensile strength determination of alumina single crystal fibers in gold image furnace is presented in this paper.
Reference list
1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Kablov E.N., Shhetanov B.V., Ivahnenko Ju.A., Balinova Ju.A. Perspektivnye armirujushhie vysokotemperaturnye volokna dlja metallicheskih i keramicheskih kompozicionnyh materialov [Prospective reinforcing fiber for high temperature ceramic compo-sites and metal materials] //Trudy VIAM. 2013. №2. St. 05 (viam-works.ru).
4. Svetlov I.L. Vysokotemperaturnye Nb–Si-kompozity //Materialovedenie. 2010. №9. S. 29–38.
5. Orlov M.R. Strategicheskie napravlenija razvitija Ispytatel'nogo centra FGUP «VIAM» [Strategic directions of development of the Testing Center FSUE «VIAM»] //Aviacionnye materialy i tehnologii. 2012. №S. S. 387–393.
6. Erasov V.S., Jakovlev N.O., Nuzhnyj G.A. Kvalifikacionnye ispytanija i issledovanija prochnosti aviacionnyh materialov [Qualification testing and research strength of aircraft materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 440–448.
7. Instron series 5800-8800 Test Control Systems Reference Manual M21-13770-En Rev. C. 2009.
8. Rossolenko S.N., Kurlov V.N., Asrian A.A. Analysis of the profile curves of the menisci for the sapphire tubes growth by EFG (Stepanov) technique //Crystal Research and Technology. 2009. V. 44. №7. P. 689–700.
9. Rossolenko S.N., Kurlov V.N., Asrian A.A. Analysis of the profile curves of the menisci for the sapphire capillaries and fibers growth by EFG (Stepanov) technique //Crystal Research and Technology. 2009. V. 44. №7. P. 701–706.
10. Rossolenko S.N., Kurlov V.N., Asrjan A.A. Issledovanie profil'nyh krivyh meniskov dlja processa vyrashhivanija kristallov po sposobu Stepanova [Study profile curves meniscus for process of crystal growth in a manner of Stepanov] //Izvestija RAN. 2009. T. 73. №10. S. 1398–1402.
11. Kablov E.N., Shhetanov B.V. Metody poluchenija monokristallicheskih volokon oksida aljuminija dlja kompozicionnyh materialov [Methods for producing single crystal alumina fibers for composite materials] /V sb. materialov 29 ezhegodnoj Mezhdu-narodnoj konf. i seminara «Kompozicionnye materialy v promyshlennosti». Jalta. 2009. S. 150–155.
12. Milejko S.T., Serebrjakov A.V., Kijko V.M., Kolchin A.A., Kurlov V.N., Novohatskaja N.I., Tolstun A.N. Monokristallicheskie volokna mullita, poluchaemye metodom vnutrennej kristallizacii [Monocrystalline mullite fibers, obtained by internal crystalliza-tion] //Kompozity i nanostruktury. 2009. №2. S. 47–60.
13. Shhetanov B.V., Kupcov R.S., Svistunov V.I. Metody poluchenija monokristallich-eskih volokon oksida aljuminija dlja sozdanija kompozicionnyh materialov i vysoko-temperaturnoj volokonnoj optiki [Methods of producing single crystal alumina fibers to create a high-temperature composite materials and fiber optics] //Trudy VIAM. 2013. №4. St. 01 (viam-works.ru).
14. Basargin O.V., Nikitina V.Ju., Shheglova T.M., Kolyshev S.G. Osobennosti provedenija prochnostnyh ispytanij v pechi luchevogo nagreva [Features of the strength tests in beam heating furnace] //Steklo i keramika. 2013. №2. S. 6–9.
15. Ulvac-Riko Infrared gold image furnace. Instruction manual. Ulvac-Riko, Inc. (www.ulvac.co.jp) 2010.
16. Tinjakova E.V., Grashhenkov D.V. Teploizoljacionnyj material na osnove mullito-korundovyh i kvarcevyh volokon [Thermal insulation material on the basis of mullite-corundum and quartz fibers] //Aviacionnye materialy i tehnologii. 2012. №3. S. 43–46.
17. Nikitina V.Ju., Kolyshev S.G., Kupcov R.S. Sposoby opredelenija ploshhadi sechenija monokristallicheskih volokon Al2O3 dlja rascheta prochnosti pri rastjazhenii [Methods for determining the cross-sectional area of single crystal Al2O3 fibers for calculating the tensile strength] //Trudy VIAM. 2014. №2. St. 03 (viam-works.ru).
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Kablov E.N., Shhetanov B.V., Ivahnenko Ju.A., Balinova Ju.A. Perspektivnye armirujushhie vysokotemperaturnye volokna dlja metallicheskih i keramicheskih kompozicionnyh materialov [Prospective reinforcing fiber for high temperature ceramic compo-sites and metal materials] //Trudy VIAM. 2013. №2. St. 05 (viam-works.ru).
4. Svetlov I.L. Vysokotemperaturnye Nb–Si-kompozity //Materialovedenie. 2010. №9. S. 29–38.
5. Orlov M.R. Strategicheskie napravlenija razvitija Ispytatel'nogo centra FGUP «VIAM» [Strategic directions of development of the Testing Center FSUE «VIAM»] //Aviacionnye materialy i tehnologii. 2012. №S. S. 387–393.
6. Erasov V.S., Jakovlev N.O., Nuzhnyj G.A. Kvalifikacionnye ispytanija i issledovanija prochnosti aviacionnyh materialov [Qualification testing and research strength of aircraft materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 440–448.
7. Instron series 5800-8800 Test Control Systems Reference Manual M21-13770-En Rev. C. 2009.
8. Rossolenko S.N., Kurlov V.N., Asrian A.A. Analysis of the profile curves of the menisci for the sapphire tubes growth by EFG (Stepanov) technique //Crystal Research and Technology. 2009. V. 44. №7. P. 689–700.
9. Rossolenko S.N., Kurlov V.N., Asrian A.A. Analysis of the profile curves of the menisci for the sapphire capillaries and fibers growth by EFG (Stepanov) technique //Crystal Research and Technology. 2009. V. 44. №7. P. 701–706.
10. Rossolenko S.N., Kurlov V.N., Asrjan A.A. Issledovanie profil'nyh krivyh meniskov dlja processa vyrashhivanija kristallov po sposobu Stepanova [Study profile curves meniscus for process of crystal growth in a manner of Stepanov] //Izvestija RAN. 2009. T. 73. №10. S. 1398–1402.
11. Kablov E.N., Shhetanov B.V. Metody poluchenija monokristallicheskih volokon oksida aljuminija dlja kompozicionnyh materialov [Methods for producing single crystal alumina fibers for composite materials] /V sb. materialov 29 ezhegodnoj Mezhdu-narodnoj konf. i seminara «Kompozicionnye materialy v promyshlennosti». Jalta. 2009. S. 150–155.
12. Milejko S.T., Serebrjakov A.V., Kijko V.M., Kolchin A.A., Kurlov V.N., Novohatskaja N.I., Tolstun A.N. Monokristallicheskie volokna mullita, poluchaemye metodom vnutrennej kristallizacii [Monocrystalline mullite fibers, obtained by internal crystalliza-tion] //Kompozity i nanostruktury. 2009. №2. S. 47–60.
13. Shhetanov B.V., Kupcov R.S., Svistunov V.I. Metody poluchenija monokristallich-eskih volokon oksida aljuminija dlja sozdanija kompozicionnyh materialov i vysoko-temperaturnoj volokonnoj optiki [Methods of producing single crystal alumina fibers to create a high-temperature composite materials and fiber optics] //Trudy VIAM. 2013. №4. St. 01 (viam-works.ru).
14. Basargin O.V., Nikitina V.Ju., Shheglova T.M., Kolyshev S.G. Osobennosti provedenija prochnostnyh ispytanij v pechi luchevogo nagreva [Features of the strength tests in beam heating furnace] //Steklo i keramika. 2013. №2. S. 6–9.
15. Ulvac-Riko Infrared gold image furnace. Instruction manual. Ulvac-Riko, Inc. (www.ulvac.co.jp) 2010.
16. Tinjakova E.V., Grashhenkov D.V. Teploizoljacionnyj material na osnove mullito-korundovyh i kvarcevyh volokon [Thermal insulation material on the basis of mullite-corundum and quartz fibers] //Aviacionnye materialy i tehnologii. 2012. №3. S. 43–46.
17. Nikitina V.Ju., Kolyshev S.G., Kupcov R.S. Sposoby opredelenija ploshhadi sechenija monokristallicheskih volokon Al2O3 dlja rascheta prochnosti pri rastjazhenii [Methods for determining the cross-sectional area of single crystal Al2O3 fibers for calculating the tensile strength] //Trudy VIAM. 2014. №2. St. 03 (viam-works.ru).
4.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-4-4
УДК 546.28-121:546.05
Sevastyanov V.G., Simonenko E.P., Simonenko N.P., Kuznetsov N.T., Grachshencov D.V., Solncev S.St., Ermakova G.V., Prokopchenko G.M.
THE SYNTHESIS OF NANOSTRUCTURED SILICON THROUGH THE GAS PHASE USING PERCHLORESILANES FOR DOPING SILICON CARBIDE-BASED HIGH-TEMPERATURE COMPOSITE MATERIAL
Nano-structured silicon, which is promising to doping of silicon carbide-based high-temperature composite materials, synthesized by the chemical vapor deposition method, using various fractions of perchlorosilanes SinCl2n+2 as precursors. The effect of chemical nature of the starting materials and process parameters (temperature steam and thermal degradation, exposure time) on the characteristics of the product was studied.
Reference list
1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
2. Kablov E.N. Chtoby sokratit' tehnologicheskoe otstavanie [To reduce the technological lag] //Inzhenernaja gazeta. 2010. №12–13.
3. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
4. Uvarova N.E., Grashhenkov D.V., Isaeva N.V., Orlova L.A., Sarkisov P.D. Vysokotemperaturnye radioprozrachnye materialy: segodnja i zavtra [High-temperature materials radioparent: today and tomorrow] //Aviacionnye materialy i tehnologii. 2010. №1. S. 16–21.
5. Sarkisov P.D., Grashhenkov D.V., Orlova L.A., Uvarova N.E., Popovich N.V. Sovremennye dostizhenija v oblasti sozdanija vysokotemperaturnyh radioprozrachnyh ma-terialov [Recent advances in the field of high-temperature materials radiotransparent] //Tehnika i tehnologija silikatov. 2009. T. 16. №1. S. 2–10.
6. Kablov E.N., Grashhenkov D.V., Isaeva N.V., Solncev S.S. Perspektivnye vysokotemperaturnye keramicheskie kompozicionnye materialy [Promising high-temperature ceramic composites] //Rossijskij himicheskij zhurnal. 2010. T. LIV. №1. S. 20–24.
7. Kablov E.N., Grashhenkov D.V., Uvarova N.E. Issledovanija metodom infrakrasnoj spektroskopii strukturnyh izmenenij gelej v processe termicheskoj obrabotki pri polu-chenii vysokotemperaturnyh steklokeramicheskih materialov po zol'-gel' tehnologii [Research by infrared spectroscopy structural changes gels during heat treatment in the preparation of high-ceramic materials by sol-gel technology] //Aviacionnye materialy i tehnologii. 2011. №2. S. 22–25.
8. Kablov E.N. Materialy na vse vremena [Materials at all times] //Nauka i zhizn'. 2010. №10. S. 1–15.
9. Hristov C.I. Zol'-gel' tehnologija silikatnyh materialov [The sol-gel technology silicate materials]. M.: RHTU. 1995. 232 s.
10. Frety N., Taylor A., Lewis M.H. Microstructure and Cristallization Behavior of Sol-Gel Derived SrO0,5–BaO0,5–Al2O3–2SiO2 Glass-Ceramic //J. of non-cristalline solids. 1996. V. 195. №1–2. P. 28–37.
11. Schmidt H., Jonschker G., Goedicke S., Mennig M. The sol-gel process as a basic technology for nanoparticle-dispersed inorganic-organic composites //J. of Sol-Gel Sci. and Techn. 2000. V. 19. P. 39–51.
12. Maksimov A.I., Moshnikov V.A., Tairov Ju.M., Shilova O.A. Osnovy zol'-gel' tehnologii nanokompozitov [Fundamentals of sol-gel technology nanocomposites]. SPb.: LJeTI. 2008. 254 s.
13. Grashhenkov D.V., Shhegoleva N.E., Simonenko E.P., Ermakova G.V. Vysokotemperaturnyj keramicheskij kompozicionnyj material, ustojchivyj pri dlitel'noj jekspluatacii do 2000°C s mnogourovnevoj kompleksnoj sistemoj zashhity [The high temperature ceramic composite, stable at long-term operation up to 2000°C with a multilevel integrated protection system] //Vse materialy. Jenciklopedicheskij spravochnik. 2011. №8. S. 25–28.
14. Kuznetsov N.T., Sevast’yanov V.G., Simonenko E.P. Finely Dispersed Refractory Compounds for High-Temperature Ceramic Matrix Composite Applications //Russian Journal of General Chemistry. 2010. V. 55. №3. P. 658–665.
15. Sevast’yanov V.G., Simonenko E.P., Simonenko N.P., Kuznetsov N.T. Synthesis of Ultrafine Refractory Oxides Zirconia–Hafnia–Yttria by Sol-Gel Technology //Russian Journal of Inorganic Chemistry. 2012. V. 57. №3. P. 307–312.
16. Sevast’yanov V.G., Simonenko E.P., Ezhov Yu.S., Simonenko N.P., Kuznetsov N.T. Low-Temperature Synthesis of Nanodispersed Titanium, Zirconium and Hafnium Carbides //Russian Journal of Inorganic Chemistry. 2011. V. 56. №5. P. 661–672.
17. Simonenko E.P., Simonenko N.P., Sevast'janov V.G., Grashhenkov D.V., Kuznecov N.T., Kablov E.N. Funkcional'no gradientnyj kompozicionnyj material SiC/(ZrO2–HfO2–Y2O3), poluchennyj s primeneniem zol'-gel' metoda [Functionally gradient com-posite material SiC/(ZrO2–HfO2–Y2O3), prepared using a sol-gel method] //Kompozity i nanostruktury. 2011. №4. S. 52–64.
18. Simonenko E.P., Simonenko N.P., Derbenev A.V., Nikolaev V.A., Grashchenkov D.V., Sevast’yanov V.G., Kablov E.N., Kuznetsov N.T. Synthesis of Nanocrystalline Silicon Carbide using the Sol-Gel Technique //Russian Journal of Inorganic Chemistry. 2013. V. 58. №10. P. 1143–1151.
19. Uvarova N.E., Orlova L.A., Lebedeva Ju.E., Grashhenkov D.V. Primenenie metoda jelektronnogo paramagnitnogo rezonansa dlja izuchenija strukturnyh izmenenij v processe geleobrazovanija pri poluchenii keramiki i steklokeramiki zol'-gel' metodom [Application of the method of electron paramagnetic resonance to study structural changes in the gel in the preparation of ceramics and glass-ceramics by sol-gel method] //Aviacionnye materialy i tehnologii. 2011. №3. S. 26–30.
20. Lebedeva Ju.E., Popovich N.V., Orlova L.A. Zashhitnye vysokotemperaturnye pokrytija dlja kompozicionnyh materialov na osnove SiC [Protective coatings for high-temperature composite materials based on SiC] //Trudy VIAM. 2013. №2. St. 06 (viam-works.ru).
21. Sevast’yanov V.G., Nosatenko P.Ya., Gorskii V.V., Ezhov Yu.S., Sevast’yanov D.V., Simonenko E.P., Kuznetsov N.T. Experimental and Theoretical Determination of the Saturation Vapor Pressure of Silicon in a Wide Range of Temperatures //Russian Journal of Inorganic Chemistry. 2010. V. 55. №13. P. 2073–2088.
22. Sevast'janov V.G., Ezhov Ju.S., Pavelko R.G., Kuznecov N.T. Perhlorsilany i perhlorkarbosilany kak startovye reagenty dlja nizkotemperaturnogo gazofaznogo sinteza karbida kremnija [Perchlorosilanes and perchlorocarbosilanes as starting reagents for the low-temperature chemical vapor deposition of silicon carbide]//Neorganicheskie materialy. 2007. №4. S. 432–436.
23. Sposob poluchenija vysokodispersnogo karbida kremnija [A method for producing finely divided silicon carbide]: pat. 2339574 Ros. Federacija; opubl. 27.11.2008 Bjul. №33. S. 5.
24. Gmelin Handbook of Inorganic Chemistry. Silicon. Springer Berlin. 1984. V. A1. P. 38–69.
25. Kochubej N.F., Gavrilov A.P., Karamzin M.S., Moin F.B., Pazderskij Ju.A. Kinetika termicheskogo razlozhenija oktahlortrisilana [Kinetics of thermal decomposition octachlorotrisilanes]. Rukopis' deponirovana v VINITI za №1265–78 dep. ot 12.04.1978.
26. Ezhov Ju.S., Simonenko E.P., Sevast'janov V.G. Termodinamicheskie svojstva i termicheskoe razlozhenie oktahlortrisilana Si3Cl8 [Thermodynamic properties and thermal decomposition octachlorotrisilane Si3Cl8] //Zhurnal fizicheskoj himii. 2009. №2. S. 1–4.
27. Ezhov Ju.S., Komarov S.A., Simonenko E.P., Sevast'janov V.G. Osobennosti stroenija molekuly oktahlortrisilana Si3Cl8 [Features of the structure of the molecule octachlorotrisilane Si3Cl8] //Zhurnal strukturnoj himii. 2008. №4. S. 633–639.
28. Almenningen A., Fjeldberg T. The molecular structure of gaseous octachlorotrisilane, Si3Cl8, as determined by electron diffraction //Journal of Molecular Structure. 1981. V. 77. №3–4. P. 315–318.
29. Gurvich L.V., Iorish V.S. et. al. Ivtantermo. A thermodynamic Database and Software System for the Personal Computer. User’s Guide. CRC Press. Inc. Boca Raton. 1993. P. 145–180.
2. Kablov E.N. Chtoby sokratit' tehnologicheskoe otstavanie [To reduce the technological lag] //Inzhenernaja gazeta. 2010. №12–13.
3. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
4. Uvarova N.E., Grashhenkov D.V., Isaeva N.V., Orlova L.A., Sarkisov P.D. Vysokotemperaturnye radioprozrachnye materialy: segodnja i zavtra [High-temperature materials radioparent: today and tomorrow] //Aviacionnye materialy i tehnologii. 2010. №1. S. 16–21.
5. Sarkisov P.D., Grashhenkov D.V., Orlova L.A., Uvarova N.E., Popovich N.V. Sovremennye dostizhenija v oblasti sozdanija vysokotemperaturnyh radioprozrachnyh ma-terialov [Recent advances in the field of high-temperature materials radiotransparent] //Tehnika i tehnologija silikatov. 2009. T. 16. №1. S. 2–10.
6. Kablov E.N., Grashhenkov D.V., Isaeva N.V., Solncev S.S. Perspektivnye vysokotemperaturnye keramicheskie kompozicionnye materialy [Promising high-temperature ceramic composites] //Rossijskij himicheskij zhurnal. 2010. T. LIV. №1. S. 20–24.
7. Kablov E.N., Grashhenkov D.V., Uvarova N.E. Issledovanija metodom infrakrasnoj spektroskopii strukturnyh izmenenij gelej v processe termicheskoj obrabotki pri polu-chenii vysokotemperaturnyh steklokeramicheskih materialov po zol'-gel' tehnologii [Research by infrared spectroscopy structural changes gels during heat treatment in the preparation of high-ceramic materials by sol-gel technology] //Aviacionnye materialy i tehnologii. 2011. №2. S. 22–25.
8. Kablov E.N. Materialy na vse vremena [Materials at all times] //Nauka i zhizn'. 2010. №10. S. 1–15.
9. Hristov C.I. Zol'-gel' tehnologija silikatnyh materialov [The sol-gel technology silicate materials]. M.: RHTU. 1995. 232 s.
10. Frety N., Taylor A., Lewis M.H. Microstructure and Cristallization Behavior of Sol-Gel Derived SrO0,5–BaO0,5–Al2O3–2SiO2 Glass-Ceramic //J. of non-cristalline solids. 1996. V. 195. №1–2. P. 28–37.
11. Schmidt H., Jonschker G., Goedicke S., Mennig M. The sol-gel process as a basic technology for nanoparticle-dispersed inorganic-organic composites //J. of Sol-Gel Sci. and Techn. 2000. V. 19. P. 39–51.
12. Maksimov A.I., Moshnikov V.A., Tairov Ju.M., Shilova O.A. Osnovy zol'-gel' tehnologii nanokompozitov [Fundamentals of sol-gel technology nanocomposites]. SPb.: LJeTI. 2008. 254 s.
13. Grashhenkov D.V., Shhegoleva N.E., Simonenko E.P., Ermakova G.V. Vysokotemperaturnyj keramicheskij kompozicionnyj material, ustojchivyj pri dlitel'noj jekspluatacii do 2000°C s mnogourovnevoj kompleksnoj sistemoj zashhity [The high temperature ceramic composite, stable at long-term operation up to 2000°C with a multilevel integrated protection system] //Vse materialy. Jenciklopedicheskij spravochnik. 2011. №8. S. 25–28.
14. Kuznetsov N.T., Sevast’yanov V.G., Simonenko E.P. Finely Dispersed Refractory Compounds for High-Temperature Ceramic Matrix Composite Applications //Russian Journal of General Chemistry. 2010. V. 55. №3. P. 658–665.
15. Sevast’yanov V.G., Simonenko E.P., Simonenko N.P., Kuznetsov N.T. Synthesis of Ultrafine Refractory Oxides Zirconia–Hafnia–Yttria by Sol-Gel Technology //Russian Journal of Inorganic Chemistry. 2012. V. 57. №3. P. 307–312.
16. Sevast’yanov V.G., Simonenko E.P., Ezhov Yu.S., Simonenko N.P., Kuznetsov N.T. Low-Temperature Synthesis of Nanodispersed Titanium, Zirconium and Hafnium Carbides //Russian Journal of Inorganic Chemistry. 2011. V. 56. №5. P. 661–672.
17. Simonenko E.P., Simonenko N.P., Sevast'janov V.G., Grashhenkov D.V., Kuznecov N.T., Kablov E.N. Funkcional'no gradientnyj kompozicionnyj material SiC/(ZrO2–HfO2–Y2O3), poluchennyj s primeneniem zol'-gel' metoda [Functionally gradient com-posite material SiC/(ZrO2–HfO2–Y2O3), prepared using a sol-gel method] //Kompozity i nanostruktury. 2011. №4. S. 52–64.
18. Simonenko E.P., Simonenko N.P., Derbenev A.V., Nikolaev V.A., Grashchenkov D.V., Sevast’yanov V.G., Kablov E.N., Kuznetsov N.T. Synthesis of Nanocrystalline Silicon Carbide using the Sol-Gel Technique //Russian Journal of Inorganic Chemistry. 2013. V. 58. №10. P. 1143–1151.
19. Uvarova N.E., Orlova L.A., Lebedeva Ju.E., Grashhenkov D.V. Primenenie metoda jelektronnogo paramagnitnogo rezonansa dlja izuchenija strukturnyh izmenenij v processe geleobrazovanija pri poluchenii keramiki i steklokeramiki zol'-gel' metodom [Application of the method of electron paramagnetic resonance to study structural changes in the gel in the preparation of ceramics and glass-ceramics by sol-gel method] //Aviacionnye materialy i tehnologii. 2011. №3. S. 26–30.
20. Lebedeva Ju.E., Popovich N.V., Orlova L.A. Zashhitnye vysokotemperaturnye pokrytija dlja kompozicionnyh materialov na osnove SiC [Protective coatings for high-temperature composite materials based on SiC] //Trudy VIAM. 2013. №2. St. 06 (viam-works.ru).
21. Sevast’yanov V.G., Nosatenko P.Ya., Gorskii V.V., Ezhov Yu.S., Sevast’yanov D.V., Simonenko E.P., Kuznetsov N.T. Experimental and Theoretical Determination of the Saturation Vapor Pressure of Silicon in a Wide Range of Temperatures //Russian Journal of Inorganic Chemistry. 2010. V. 55. №13. P. 2073–2088.
22. Sevast'janov V.G., Ezhov Ju.S., Pavelko R.G., Kuznecov N.T. Perhlorsilany i perhlorkarbosilany kak startovye reagenty dlja nizkotemperaturnogo gazofaznogo sinteza karbida kremnija [Perchlorosilanes and perchlorocarbosilanes as starting reagents for the low-temperature chemical vapor deposition of silicon carbide]//Neorganicheskie materialy. 2007. №4. S. 432–436.
23. Sposob poluchenija vysokodispersnogo karbida kremnija [A method for producing finely divided silicon carbide]: pat. 2339574 Ros. Federacija; opubl. 27.11.2008 Bjul. №33. S. 5.
24. Gmelin Handbook of Inorganic Chemistry. Silicon. Springer Berlin. 1984. V. A1. P. 38–69.
25. Kochubej N.F., Gavrilov A.P., Karamzin M.S., Moin F.B., Pazderskij Ju.A. Kinetika termicheskogo razlozhenija oktahlortrisilana [Kinetics of thermal decomposition octachlorotrisilanes]. Rukopis' deponirovana v VINITI za №1265–78 dep. ot 12.04.1978.
26. Ezhov Ju.S., Simonenko E.P., Sevast'janov V.G. Termodinamicheskie svojstva i termicheskoe razlozhenie oktahlortrisilana Si3Cl8 [Thermodynamic properties and thermal decomposition octachlorotrisilane Si3Cl8] //Zhurnal fizicheskoj himii. 2009. №2. S. 1–4.
27. Ezhov Ju.S., Komarov S.A., Simonenko E.P., Sevast'janov V.G. Osobennosti stroenija molekuly oktahlortrisilana Si3Cl8 [Features of the structure of the molecule octachlorotrisilane Si3Cl8] //Zhurnal strukturnoj himii. 2008. №4. S. 633–639.
28. Almenningen A., Fjeldberg T. The molecular structure of gaseous octachlorotrisilane, Si3Cl8, as determined by electron diffraction //Journal of Molecular Structure. 1981. V. 77. №3–4. P. 315–318.
29. Gurvich L.V., Iorish V.S. et. al. Ivtantermo. A thermodynamic Database and Software System for the Personal Computer. User’s Guide. CRC Press. Inc. Boca Raton. 1993. P. 145–180.
5.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-5-5
УДК 621.792.053
Tyumeneva T.Y., Kogtenkov A.S., Lukina N.F., Chursova L.V.
INFLUENCE OF FILLERS ON PROPERTIES OF ADHESIVES OF INDUSTRIAL RUBBER ASSIGNMENT
The description of researches of influence of fillers on properties of earlier developed adhesives and new development of VIAM Federal State Unitary Enterprise in the field of the adhesives of industrial rubber assignment intended for aviation engineering is provided. The main properties of adhesives of cold curing and the adhesives intended for compound of rubbers with metals in the course of curing, containing different fillers are stated. Advantages of new development in comparison with existing or applied earlier are shown.
Read in RussianReference list
1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija polimernyh kompozicionnyh i funkcional'nyh materialov [The development strategy of polymer composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Kardashov D.A., Petrova A.P. Polimernye klei [Polymer adhesives]. M.: Himija. 1983. 256 s.
4. Petrova A.P., Donskoj A.A., Chalyh A.E., Shherbina A.A. Klejashhie materialy. Germetiki [Adhesives. Sealants]: Spravochnik. SPb.: NPO «Professional». 2008. 589 s.
5. Lukina N.F., Dement'eva L.A., Petrova A.P., Tyumeneva T.Y. Properties of adhesives and adhesive materials used in aviation industry //Polymer Science. Series D. 2009. T. 2. №3. P. 147–154.
6. Petrova A.P., Lukina N.F., Dement'eva L.A., Tjumeneva T.Ju., Avdonina I.A., Zhadova N.S. Klei dlja aviacionnyh materialov [Adhesives for aircraft materials] //Rossijskij himicheskij zhurnal. 2010. T. IV. №1. S. 46–52.
7. Dement'eva L.A., Tjumeneva T.Ju., Sharova I.Ju. Klei s ponizhennoj gorjuchest'ju dlja aviacionnoj tehniki [Adhesives with reduced flammability for aircraft] /V sb. dokladov VI Mezhdunarodnoj konf. «Polimernye materialy ponizhennoj gorjuchesti». VoGTU. 2011. S. 127–128.
8. Sytyj Ju.V., Sagomonova V.A., Kisljakova V.I., Bol'shakov V.A. Novye vibropogloshhajushhie materialy [New vibration-absorbing materials] //Aviacionnye materialy i tehnologii. 2012. №2. S. 51–54.
9. Petrova A.P. Osnovnye jetapy tehnologii skleivanija [Main stages of bonding technology] //Klei. Germetiki. Tehnologii. 2014. №2. S. 24–30.
10. Lukina N.F., Dement'eva L.A., Petrova A.P., Tjumeneva T.Ju. Svojstva kleev i klejashhih materialov dlja izdelij aviacionnoj tehniki [Properties of adhesives and adhesive materials for aircraft products] //Klei. Germetiki. Tehnologii. 2009. №1. S. 14–24.
11. Petrova A.P., Lukina N.F., Dement'eva L.A., Tyumeneva T.Y., Avdonina I.A., Zhadova N.S. Adhesives for aviation equipment //Russian Journal of General Chemistry. 2011. T. 81. №5. P. 1014–1021.
12. Petrova A.P., Lukina N.F. Klei dlja mnogorazovoj kosmicheskoj sistemy [Adhesives for reusable space system] //Trudy VIAM. 2013. №4. St. 04 (viam-works.ru).
13. Sharova I.A., Petrova A.P. Obzor po materialam Mezhdunarodnoj konferencii po klejam i germetikam WAC-2012 [Browse by materials of the International conference on adhesives and sealants WAC-2012] //Trudy VIAM. 2013. №8. St. 06 (viam-works.ru).
14. Lukina N.F., Dement'eva L.A., Petrova A.P., Serezhenkov A.A. Konstrukcionnye i termostojkie klei [Structural and heat-resistant adhesives] //Aviacionnye materialy i tehnologii. 2012. №S. S. 328–335.
15. Volkov K.V., Danilenko V.V., Elin V.I. i dr. Sintez almaza iz ugleroda produktov detonacii VV [Synthesis of diamond from carbon detonation products VV] //Fizika gorenija i vzryva.1990. T. 3. №26. S. 123–125.
16. Sakovich G.V., Titov V.M., Brylyakov P.M. Synthesis of diamonds clusters by explosion /In: Proc. X Intern. Conf. «High Energy Rate Fabrication». Ljubliana. 1989. P. 179–188.
17. Tyumeneva T.Y., Lukina N.F. VKR-95 cold-setting adhesive with enhanced strength //Polymer Science. Series D. 2010. T. 3. №2. S. 114–116.
18. Kleevaja kompozicija [The adhesive composition]: pat. 2471842 Ros. Federacija; opubl. 11.05.2011.
19. Tjumeneva T.Ju., Kogtjonkov A.S., Lukina N.F., Chursova L.V. Uspehi v oblasti razrabotki kleev i tehnologij dlja izgotovlenija rezinotehnicheskih izdelij aviacionnogo naznachenija [Progress in the development of adhesives and technologies for the manu-facture of rubber products aviation applications] //Klei. Germetiki. Tehnologii. 2013. №10. S. 7–10.
20. Tjumeneva T.Ju., Lukina N.F. Klei dlja skleivanija rezin mezhdu soboj i s drugimi materialami [Adhesives for bonding rubber between themselves and with other materials] /V sb. materialov dokladov seminara. CRDZ. 2008. S. 11–12.
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija polimernyh kompozicionnyh i funkcional'nyh materialov [The development strategy of polymer composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Kardashov D.A., Petrova A.P. Polimernye klei [Polymer adhesives]. M.: Himija. 1983. 256 s.
4. Petrova A.P., Donskoj A.A., Chalyh A.E., Shherbina A.A. Klejashhie materialy. Germetiki [Adhesives. Sealants]: Spravochnik. SPb.: NPO «Professional». 2008. 589 s.
5. Lukina N.F., Dement'eva L.A., Petrova A.P., Tyumeneva T.Y. Properties of adhesives and adhesive materials used in aviation industry //Polymer Science. Series D. 2009. T. 2. №3. P. 147–154.
6. Petrova A.P., Lukina N.F., Dement'eva L.A., Tjumeneva T.Ju., Avdonina I.A., Zhadova N.S. Klei dlja aviacionnyh materialov [Adhesives for aircraft materials] //Rossijskij himicheskij zhurnal. 2010. T. IV. №1. S. 46–52.
7. Dement'eva L.A., Tjumeneva T.Ju., Sharova I.Ju. Klei s ponizhennoj gorjuchest'ju dlja aviacionnoj tehniki [Adhesives with reduced flammability for aircraft] /V sb. dokladov VI Mezhdunarodnoj konf. «Polimernye materialy ponizhennoj gorjuchesti». VoGTU. 2011. S. 127–128.
8. Sytyj Ju.V., Sagomonova V.A., Kisljakova V.I., Bol'shakov V.A. Novye vibropogloshhajushhie materialy [New vibration-absorbing materials] //Aviacionnye materialy i tehnologii. 2012. №2. S. 51–54.
9. Petrova A.P. Osnovnye jetapy tehnologii skleivanija [Main stages of bonding technology] //Klei. Germetiki. Tehnologii. 2014. №2. S. 24–30.
10. Lukina N.F., Dement'eva L.A., Petrova A.P., Tjumeneva T.Ju. Svojstva kleev i klejashhih materialov dlja izdelij aviacionnoj tehniki [Properties of adhesives and adhesive materials for aircraft products] //Klei. Germetiki. Tehnologii. 2009. №1. S. 14–24.
11. Petrova A.P., Lukina N.F., Dement'eva L.A., Tyumeneva T.Y., Avdonina I.A., Zhadova N.S. Adhesives for aviation equipment //Russian Journal of General Chemistry. 2011. T. 81. №5. P. 1014–1021.
12. Petrova A.P., Lukina N.F. Klei dlja mnogorazovoj kosmicheskoj sistemy [Adhesives for reusable space system] //Trudy VIAM. 2013. №4. St. 04 (viam-works.ru).
13. Sharova I.A., Petrova A.P. Obzor po materialam Mezhdunarodnoj konferencii po klejam i germetikam WAC-2012 [Browse by materials of the International conference on adhesives and sealants WAC-2012] //Trudy VIAM. 2013. №8. St. 06 (viam-works.ru).
14. Lukina N.F., Dement'eva L.A., Petrova A.P., Serezhenkov A.A. Konstrukcionnye i termostojkie klei [Structural and heat-resistant adhesives] //Aviacionnye materialy i tehnologii. 2012. №S. S. 328–335.
15. Volkov K.V., Danilenko V.V., Elin V.I. i dr. Sintez almaza iz ugleroda produktov detonacii VV [Synthesis of diamond from carbon detonation products VV] //Fizika gorenija i vzryva.1990. T. 3. №26. S. 123–125.
16. Sakovich G.V., Titov V.M., Brylyakov P.M. Synthesis of diamonds clusters by explosion /In: Proc. X Intern. Conf. «High Energy Rate Fabrication». Ljubliana. 1989. P. 179–188.
17. Tyumeneva T.Y., Lukina N.F. VKR-95 cold-setting adhesive with enhanced strength //Polymer Science. Series D. 2010. T. 3. №2. S. 114–116.
18. Kleevaja kompozicija [The adhesive composition]: pat. 2471842 Ros. Federacija; opubl. 11.05.2011.
19. Tjumeneva T.Ju., Kogtjonkov A.S., Lukina N.F., Chursova L.V. Uspehi v oblasti razrabotki kleev i tehnologij dlja izgotovlenija rezinotehnicheskih izdelij aviacionnogo naznachenija [Progress in the development of adhesives and technologies for the manu-facture of rubber products aviation applications] //Klei. Germetiki. Tehnologii. 2013. №10. S. 7–10.
20. Tjumeneva T.Ju., Lukina N.F. Klei dlja skleivanija rezin mezhdu soboj i s drugimi materialami [Adhesives for bonding rubber between themselves and with other materials] /V sb. materialov dokladov seminara. CRDZ. 2008. S. 11–12.
6.
dx.doi.org/ 10.18577/2307-6046-2014-0-4-6-6
УДК 678.8
Postnova M.V., Postnov V.I.
DEVELOPMENT EXPERIENCE OUT-OF-AUTOCLAVE METHODS OF FORMATION PCM
The basic known technologies out-of-autoclave forming of designs from polymer ma-terials, including their advantages, lacks and scopes are considered. Devices and forms for realizations of the given manufacturing techniques of details from PCM are presented also. Methods UV-solidification are considered at vacuum forming.
Reference list
1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Zastrogina O.B., Shvec N.I., Postnov V.I., Serkova E.A. Fenolformal'degidnye svjazujushhie novogo pokolenija dlja materialov inter'era [Phenolformaldehyde binders for a new generation of interior materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 265–272.
4. Panina N.N., Kim M.A., Gurevich Ja.M., Grigor'ev M.M., Chursova L.V., Babin A.N. Svjazujushhie dlja bezavtoklavnogo formovanija izdelij iz polimernyh kompozicionnyh materialov [Binders for autoclave-free formation of products from polymeric composite materials] //Klei. Germetiki. Tehnologii. 2013. №10. S. 27–35.
5. Postnov V.I., Veshkin E.A., Abramov P.A. Puti povyshenija kachestva detalej iz PKM pri vakuumnom formovanii [Ways to improve the quality of parts made in RMB vacuum forming] //Izvestija Samarskogo nauchnogo centra RAN. 2012. T. 14. №4 (3). S. 834–839.
6. Postnov V.I., Strel'nikov S.V. Vlijanie tehnologii sovmeshhennogo formovanija obshivok i skleivanie ih s sotovym zapolnitelem na tehnologicheskie svojstva paneli [Impact of technology combined molding and gluing their skins with honeycomb panels on the technological properties] //Klei. Germetiki. Tehnologii. 2012. №10. S. 23–29.
7. Postnov V.I., Strel'nikov S.V., Petuhov V.I., Shvec N.I. Novye reshenija v tehnologii izgotovlenija prepregov dlja panelej inter'era [New solutions in the technology of prepregs for interior panels] //Izvestija Samarskogo nauchnogo centra RAN. 2013. T. 13. №4(2). S. 498–507.
8. Veselov S.I., Kartashov G.G. Kompozicionnye materialy v aviadvigatelestroenii [Composite materials in aircraft engine]. Kujbyshev: KuAI. 1986. 112 s.
9. Kshnjakin A.M., Pushkina G.I., Veselov S.I., Kocherzhenko V.A. Informacionnyj listok №459–73. Kujbyshev: CNTI. 1973.
10. Titov V.V., Kol'cov V.N. Informacionnyj listok №88-001. M.: VIMI. 1988.
11. Neljub V.A., Grashhenkov D.V., Kogan D.I., Sokolov I.A. Primenenie prjamyh metodov formovanija pri proizvodstve krupnogabaritnyh detalej iz stekloplastikov [Ap-plication of direct methods for molding large parts in the production of fiberglass] //Himicheskaja tehnologija. 2012. №12. S. 735–739.
12. Chursova L.V., Dushin M.I., Hrul'kov A.V. i dr. Osobennosti tehnologii izgotovlenija detalej iz kompozicionnyh materialov metodom propitki pod davleniem [Features of technology manufacturing parts made of composite materials by pressure impregnation] /V sb. materialov Mezhotraslevoj nauch.-tehnich. konf. «Kompozicionnye materialy v aviakosmicheskom materialovedenii», posvjashhennoj 100-letiju so dnja rozhdenija A.T. Tumanova. 2009. S. 18.
13. Dzhogan O.M., Kostenko O.P. Metody izgotovlenija detalej iz kompozicionnyh materialov propitkoj v osnastke. Ch. 1. Metody propitki pod davleniem [Methods for the manufacture of parts made of composite materials impregnated in a snap. Part 1. Meth-ods pressure impregnation] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 4 (68). Har'kov: HAI. 2011. S. 111–125.
14. Dzhogan O.M., Kostenko O.P. Metody izgotovlenija detalej iz kompozicionnyh materialov propitkoj v osnastke. Ch. 2. Metody vakuumnoj propitki [Methods for the manufacture of parts made of composite materials impregnated in a snap. Part 2. Vacuum impregnation methods] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 1 (69). Har'kov: HAI. 2012. S. 80–92.
15. Muhametov P.P., Ahmadieva K.R., Kim M.A., Babin A.N. Rasplavnye svjazujushhie dlja perspektivnyh metodov izgotovlenija PKM novogo pokolenija [Melt binders promising methods of manufacturing a new generation of PCM] //Aviacionnye materialy i tehnologii. 2012. №S. S. 260–265.
16. Hrul'kov A.V., Dushin M.I., Popov Ju.O., Kogan D.I. Issledovanija i razrabotka avtoklavnyh i bezavtoklavnyh tehnologij formovanija PKM [Research and development of the autoclave and non-autoclave molding technologies RMB] //Aviacionnye materialy i tehnologii. 2012. №S. S. 292–301.
17. Kogan D.I., Chursova L.V., Petrova A.P. Tehnologija izgotovlenija PKM sposobom propitki plenochnym svjazujushhim [Manufacturing technology RMB impregnation method binder film] //Klei. Germetiki. Tehnologii. 2011. №6. S. 25–29.
18. Kogan D.I., Chursova L.V., Petrova A.P. Polimernye kompozicionnye materialy, poluchennye putem propitki plenochnym svjazujushhim [Polymer composite material obtained by impregnating a film binder] //Kompozicionnye materialy. 2011. №11. S. 2–6.
19. Postnov V.I., Burhan O.L., Kachura S.M., Rahmatullin A.Je., Samsonov A.V., Jamaev R.R., Shershak P.V. Neprepregovyj avtomatizirovannyj kontrol' massovogo soderzhanija plenochnogo svjazujushhego v prepregah v processe ih izgotovlenija [Non-prepreg automated control of the mass content of the binder film in prepregs during their manufacture] //Izvestija Samarskogo nauchnogo centra RAN. 2012. T. 14. №4 (3). S. 830–833.
20. Postnov V.I., Senatorova O.B., Zhelezina G.F., Kazakov I.A., Abramov P.A., Gerasimov V.A., Postnova M.V. Opyt primenenija MPKM Alor D16/41 v nosovoj chasti kryla samoleta An-124-100 [Experience of using MPKM Alor D16/41 in the bow wing air-craft An-124-100] //Aviacionnye materialy i tehnologii. 2009. №4. S. 8–17.
21. Postnov V.I., Ershov V.V., Postnov A.V. Tehnologija processa UF-otverzhdenija panelej iz stekloplastika [Process technology for UV curing fiberglass panels] /V sb. materialov 32 Mezhdunarodnoj konf. «Kompozicionnye materialy v promyshlennosti». Jalta: SLAVPOLIKOM. 2012. S. 416–417.
22. Dzhogan O.M., Kostenko O.P. Prakticheskaja klassifikacija metodov izgotovlenija detalej iz polimernyh kompozicionnyh materialov propitkoj v osnastke [Practical classification methods of manufacturing parts from polymeric composite materials impregnated in a snap] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 1 (73). Har'kov: HAI. 2013. S. 21–32.
2. Grashhenkov D.V., Chursova L.V. Strategija razvitija kompozicionnyh i funkcional'nyh materialov [Development Strategy composite and functional materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 231–242.
3. Zastrogina O.B., Shvec N.I., Postnov V.I., Serkova E.A. Fenolformal'degidnye svjazujushhie novogo pokolenija dlja materialov inter'era [Phenolformaldehyde binders for a new generation of interior materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 265–272.
4. Panina N.N., Kim M.A., Gurevich Ja.M., Grigor'ev M.M., Chursova L.V., Babin A.N. Svjazujushhie dlja bezavtoklavnogo formovanija izdelij iz polimernyh kompozicionnyh materialov [Binders for autoclave-free formation of products from polymeric composite materials] //Klei. Germetiki. Tehnologii. 2013. №10. S. 27–35.
5. Postnov V.I., Veshkin E.A., Abramov P.A. Puti povyshenija kachestva detalej iz PKM pri vakuumnom formovanii [Ways to improve the quality of parts made in RMB vacuum forming] //Izvestija Samarskogo nauchnogo centra RAN. 2012. T. 14. №4 (3). S. 834–839.
6. Postnov V.I., Strel'nikov S.V. Vlijanie tehnologii sovmeshhennogo formovanija obshivok i skleivanie ih s sotovym zapolnitelem na tehnologicheskie svojstva paneli [Impact of technology combined molding and gluing their skins with honeycomb panels on the technological properties] //Klei. Germetiki. Tehnologii. 2012. №10. S. 23–29.
7. Postnov V.I., Strel'nikov S.V., Petuhov V.I., Shvec N.I. Novye reshenija v tehnologii izgotovlenija prepregov dlja panelej inter'era [New solutions in the technology of prepregs for interior panels] //Izvestija Samarskogo nauchnogo centra RAN. 2013. T. 13. №4(2). S. 498–507.
8. Veselov S.I., Kartashov G.G. Kompozicionnye materialy v aviadvigatelestroenii [Composite materials in aircraft engine]. Kujbyshev: KuAI. 1986. 112 s.
9. Kshnjakin A.M., Pushkina G.I., Veselov S.I., Kocherzhenko V.A. Informacionnyj listok №459–73. Kujbyshev: CNTI. 1973.
10. Titov V.V., Kol'cov V.N. Informacionnyj listok №88-001. M.: VIMI. 1988.
11. Neljub V.A., Grashhenkov D.V., Kogan D.I., Sokolov I.A. Primenenie prjamyh metodov formovanija pri proizvodstve krupnogabaritnyh detalej iz stekloplastikov [Ap-plication of direct methods for molding large parts in the production of fiberglass] //Himicheskaja tehnologija. 2012. №12. S. 735–739.
12. Chursova L.V., Dushin M.I., Hrul'kov A.V. i dr. Osobennosti tehnologii izgotovlenija detalej iz kompozicionnyh materialov metodom propitki pod davleniem [Features of technology manufacturing parts made of composite materials by pressure impregnation] /V sb. materialov Mezhotraslevoj nauch.-tehnich. konf. «Kompozicionnye materialy v aviakosmicheskom materialovedenii», posvjashhennoj 100-letiju so dnja rozhdenija A.T. Tumanova. 2009. S. 18.
13. Dzhogan O.M., Kostenko O.P. Metody izgotovlenija detalej iz kompozicionnyh materialov propitkoj v osnastke. Ch. 1. Metody propitki pod davleniem [Methods for the manufacture of parts made of composite materials impregnated in a snap. Part 1. Meth-ods pressure impregnation] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 4 (68). Har'kov: HAI. 2011. S. 111–125.
14. Dzhogan O.M., Kostenko O.P. Metody izgotovlenija detalej iz kompozicionnyh materialov propitkoj v osnastke. Ch. 2. Metody vakuumnoj propitki [Methods for the manufacture of parts made of composite materials impregnated in a snap. Part 2. Vacuum impregnation methods] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 1 (69). Har'kov: HAI. 2012. S. 80–92.
15. Muhametov P.P., Ahmadieva K.R., Kim M.A., Babin A.N. Rasplavnye svjazujushhie dlja perspektivnyh metodov izgotovlenija PKM novogo pokolenija [Melt binders promising methods of manufacturing a new generation of PCM] //Aviacionnye materialy i tehnologii. 2012. №S. S. 260–265.
16. Hrul'kov A.V., Dushin M.I., Popov Ju.O., Kogan D.I. Issledovanija i razrabotka avtoklavnyh i bezavtoklavnyh tehnologij formovanija PKM [Research and development of the autoclave and non-autoclave molding technologies RMB] //Aviacionnye materialy i tehnologii. 2012. №S. S. 292–301.
17. Kogan D.I., Chursova L.V., Petrova A.P. Tehnologija izgotovlenija PKM sposobom propitki plenochnym svjazujushhim [Manufacturing technology RMB impregnation method binder film] //Klei. Germetiki. Tehnologii. 2011. №6. S. 25–29.
18. Kogan D.I., Chursova L.V., Petrova A.P. Polimernye kompozicionnye materialy, poluchennye putem propitki plenochnym svjazujushhim [Polymer composite material obtained by impregnating a film binder] //Kompozicionnye materialy. 2011. №11. S. 2–6.
19. Postnov V.I., Burhan O.L., Kachura S.M., Rahmatullin A.Je., Samsonov A.V., Jamaev R.R., Shershak P.V. Neprepregovyj avtomatizirovannyj kontrol' massovogo soderzhanija plenochnogo svjazujushhego v prepregah v processe ih izgotovlenija [Non-prepreg automated control of the mass content of the binder film in prepregs during their manufacture] //Izvestija Samarskogo nauchnogo centra RAN. 2012. T. 14. №4 (3). S. 830–833.
20. Postnov V.I., Senatorova O.B., Zhelezina G.F., Kazakov I.A., Abramov P.A., Gerasimov V.A., Postnova M.V. Opyt primenenija MPKM Alor D16/41 v nosovoj chasti kryla samoleta An-124-100 [Experience of using MPKM Alor D16/41 in the bow wing air-craft An-124-100] //Aviacionnye materialy i tehnologii. 2009. №4. S. 8–17.
21. Postnov V.I., Ershov V.V., Postnov A.V. Tehnologija processa UF-otverzhdenija panelej iz stekloplastika [Process technology for UV curing fiberglass panels] /V sb. materialov 32 Mezhdunarodnoj konf. «Kompozicionnye materialy v promyshlennosti». Jalta: SLAVPOLIKOM. 2012. S. 416–417.
22. Dzhogan O.M., Kostenko O.P. Prakticheskaja klassifikacija metodov izgotovlenija detalej iz polimernyh kompozicionnyh materialov propitkoj v osnastke [Practical classification methods of manufacturing parts from polymeric composite materials impregnated in a snap] /V sb.: «Voprosy proektirovanija i proizvodstva konstrukcij letatel'nyh apparatov». Vyp. 1 (73). Har'kov: HAI. 2013. S. 21–32.