Development of a technology for melting of high-strength maraging steel VKS-180-ID micro-alloyed with REMs
UDC
669.14.046.516
DOI
10.18577/2307-6046-2015-0-2-4-4
Article PDF (Russian)
(638.06 KB)
How to cite
Shcherbakov A.I., Krylov S.А., Kalitsev V.A., Ignatov V.A. Development of a technology for melting of high-strength maraging steel VKS-180-ID micro-alloyed with REMs // Proceedings of VIAM. 2015. No. 2. DOI: 10.18577/2307-6046-2015-0-2-4-4. URL: https://test.viam.ru/en/journal/2015/2/4
Abstract
VKS-180-ID steel is recommended for production of high-loaded parts, landing gears, airframe and engine. Metallurgical characteristics of high-strength maraging steel VKS-180-ID melt in a vacuum induction furnace (VI) with the subsequent remelting in a vacuum arc furnace (VA) using the chosen system of REM-based micro-alloying and addition of nickel oxide were studied. The technology allows production of steels with a low content of gases and impurities (carbon ≤0.005%; oxygen ≤0.004%; nitrogen ≤0.003%) providing a high level of mechanical properties both in longitudinal and in transverse directions (tensile strength, impact strength, ductility).
Reference list
- 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.
- Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih perera-botki 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.
- Kablov E.N. Sovremennye materialy – osnova innovacionnoj modernizacii Rossii [Modern materials – the basis of innovative modernization of Russia] //Metally Evrazii. 2012. №3. S. 10–15.
- Kablov E.N. Shestoj tehnologicheskij uklad [Sixth technological way] //Nauka i zhizn'. 2010. № 4. S. 2–7.
- 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).
- Kablov E.N., Ospennikova O.G., Lomberg B.S., Sidorov V.V. Prioritetnye napravlenija razvitija tehnologij proizvodstva zharoprochnyh materialov dlja aviacionnogo dvigatelestroenija [Priority areas for the development of production technology of high-temperature materials for aircraft engine] //Problemy chernoj metallurgii i materialovedenija. 2013. №3. S. 47–54.
- Salahova R.K. Korrozionnaja stojkost' stali 30HGSA s «trehvalentnym» hromovym pokrytiem v estestvennyh i iskusstvennyh sredah [The corrosion resistance of steel 30KhGSA with «trivalent» chrome plated in natural and artificial environments] //Aviacionnye materialy i tehnologii. 2012. №2. S. 59–66.
- Kablov E.N., Lomberg B.S., Ospennikova O.G. Sozdanie sovremennyh zharoprochnyh materialov i tehnologij ih proizvodstva dlja aviacionnogo dvigatelestroenija [The creation of modern high-temperature materials and production technologies for aviation engine] //Kryl'ja Rodiny. 2012. №3–4. S. 34–38.
- Lomberg B.S., Pokrovskij A.A., Topilin V.V., Shherbakov A.I. Vlijanie sposoba pereplava na kachestvo martensitostarejushhej vysokoprochnoj stali [Influence of remelting method on the quality of high-strength steel martensitostareyuschey] //Stal'. 1973. №8 S. 725.
- Shherbakov A.I., Lomberg B.S., Oborenkova A.S. Nekotorye zakonomernosti kristallizacii pri JeLP i VDP [Some regularities of crystallization at ELP and VDR] //Special'naja jelektrometallurgija. 1978. № 22. S. 22–40.
- Shalin R.E., Shherbakov A.I., Lomberg B.S., Kachanov E.B. Jelektronno-luchevoj pereplav – progressivnyj metod poluchenija vysokokachestvennyh stalej i zharoprochnyh splavov [Electron beam melting – progressive method of obtaining high-quality steels and superalloys] /V sb. Aviacionnye materialy. M.: VIAM. 1978. №3. S. 46–59.
- Revjakina O.K. Sklonnost' k teplovomu ohrupchivaniju nerzhavejushhih martensitostarejushhih stalej [Propensity to thermal embrittlement of stainless steels martensitostareyuschih] //MiTOM. 1981. №4. S. 36–39.
- Bratuhin A.G., Demchenko O.F., Dolzhenkov N.N., Krivonogov G.S. Vysokoprochnye korrozionnostojkie stali sovremennoj aviacii [High-strength corrosion-resistant steel of modern aviation]. M.: MAI. 2006. S. 112–121, 130–143.
- Savvina N.A., Kosarina E.I., Miroshin K.G., Stepanov A.V. Teoreticheskij raschet i prakticheskie sposoby opredelenija verojatnosti obnaruzhenija defektov v aviacionnyh materialah [Theoretical calculations and practical ways to determine the probability of detection of defects in aircraft materials] /V sb. Aviacionnye materialy i tehnologii. M.: VIAM. 2005. №1. S. 16–22.
- Krivonogov G.S., Kablov E.N. Granicy zeren i ih rol' v ohrupchivanii vysokoprochnyh korrozionnostojkih stalej [Grain boundaries and their role in the embrittlement of high strength corrosion resistant steels] //Metally. 2002. №1. S. 35–45.
- Krivonogov G.S., Kablov E.N. Matematicheskaja model' strukturnoj diagrammy malouglerodistyh korrozionnostojkih stalej i ee primenenie pri razrabotke novyh materialov [A mathematical model of the structural diagram of low carbon stainless steels and its application in the development of new materials] //Metally. 2001. №5. S. 42–48.
- Djubanov V.G., Lomberg B.S., Gerasimov T.N., Bol'shov L.A., Shherbakov A.I. Issledovanie vozmozhnosti obezuglerozhivanija stali, raskislennoj titanom i aljuminiem v vakuume [Study of possible decarburization steel deoxidized with titanium and aluminum in vacuo] /V sb. trudov konf. «Sovremennye problemy jelektrometallurgii stali». Cheljabinsk. 1971. S. 53–56.
- Erasov V.S., Grinevich A.V., Senik V.Ja., Konovalov V.V., Trunin Ju.P., Nesterenko G.I. Raschetnye znachenija harakteristik prochnosti aviacionnyh materialov [The calculated values of the strength characteristics of aircraft materials] //Aviacionnye materialy i tehnologii. 2012. №2. S. 14–16.
- Tonysheva O.A., Voznesenskaja N.M., Eliseev Je.A., Shal'kevich A.B. Novaja vysokoprochnaja jekonomnolegirovannaja azotsoderzhashhaja stal' povyshennoj nadezhnosti [New high sparingly nitrogen-containing steel of high reliability] //Aviacionnye materialy i tehnologii. 2012. №S. S. 84–88.
- Vylezhnev V.P., Kokovjakina S.A., Simonov Ju.N., Suhih A.A. Povyshenie harakteristik nadezhnosti martensitostarejushhej stali 03N18K9M5T putem sozdanija struktury tipa «nanotripleks» [Improving the reliability characteristics martensitostareyuschey steel 03N18K9M5T by creating structures such as «nanotripleks»] //MiTOM. 2010. №11. S. 36–39.
- Markova E.S., Pokrovskaja N.G., Shal'kevich A.B., Gromov V.I. Martensitostarejushhie stali ‒ novye perspektivnye materialy dlja valov GTD [Martensitostareyuschie steel – new promising materials for turbine engine shafts] //Aviacionnye materialy i teh-nologii. 2012. №S. S. 81–84.
- Pokrovskaja N.G., Markova E.S., Shal'kevich A.B. Vysokoprochnye konstrukcionnye martensitostarejushhie stali v aviastroenii [High-strength structural steel in aircraft martensitostareyuschie] //Aviacionnaja promyshlennost'. 2014. №1. S. 24–28.
- Markova E.S., Jakusheva N.A., Pokrovskaja N.G., Shal'kevich A.B. Tehnologicheskie osobennosti proizvodstva martensitostarejushhej stali VKS-180 [Technological features of steel production martensitostareyuschey VKS-180] //Trudy VIAM. 2013. №7. St. 01 (viam-works.ru).
