FSUE «VIAM» experience in strips production of a new high-strength metastable β-titanium alloy VT47
Nochovnaya N.A., Shiryaev A.A. FSUE «VIAM» experience in strips production of a new high-strength metastable β-titanium alloy VT47 // Proceedings of VIAM. 2017. No. 9. DOI: 10.18577/2307-6046-2017-0-9-2-2. URL: https://test.viam.ru/en/journal/2017/9/2
Keywords
VT47 alloy, microstructure, mechanical properties.
Abstract
Both technological process protocol and parameters have been developed for a high-strength metastable -titanium REE-containing VT47 alloy, and pilot samples of strips have been produced thereof. The effect of temperature and rate parameters upon interoperation heat treatment (quenching) on mechanical properties of the strips has been studied. A complex quality evaluation of the pilot strips samples, including research on structure and mechanical properties, has showed a reasonability of further work on optimization of strips and foils production technologies for VT47 alloy.
Reference list
- Skvortsova S.V., Filatov A.A., Dzunovich D.A., Panin P.V. Vliianie soderzhaniia aliuminiia na deformiruemost titanovykh splavov pri normalnoi temperature [Influence of the content of aluminum on deformability of titanium alloys at normal temperature] // Tekhnologiia legkikh splavov. 2008. №3. S. 40–45.
- Bratukhin A.G., Kolachev B.A., Sadkov V.V. i dr. Tekhnologiia proizvodstva titanovykh samoletnykh konstruktsii [Production technology of titanic aircraft designs]. M.: Mashinostroenie, 1995. 448 s.
- Nochovnaia N.A., Vaganov V.E., Panin P.V., Shiriaev A.A. i dr. Issledovanie struktury titanovoi provoloki, poluchennoi metodom vysokotemperaturnoi gazovoi ekstruzii [Research of structure of the titanic wire received by method of high-temperature gas ekstruziya] // Titan. 2015. №4 (50). S. 22–28.
- Kablov E.N., Ospennikova O.G., Lomberg B.S. Kompleksnaya innovacionnaya tehnologiya izotermicheskoj shtampovki na vozduhe v rezhime sverhplastichnosti diskov iz superzharoprochnyh splavov [Complex innovative technology of isothermal punching on air in mode of superplasticity of disks from superhot strength alloys] // Aviacionnye materialy i tehnologii. 2012. №S. S. 129–141.
- Nochovnaia N.A., Shiriaev A.A., Alekseev E.B., Antashev V.G. Optimizatsiia rezhimov termicheskoi obrabotki dlia lopatochnykh zagotovok iz opytnogo zharoprochnogo splava [Optimization of modes of thermal processing for scapular preparations from pilot hot strength alloy] // MiTOM. 2014. №12. S. 22–26.
- Nochovnaia N.A., Panin P.V., Kochetkov A.S., Bokov K.A. Opyt VIAM v oblasti razrabotki i issledovaniia ekonomnolegirovannykh titanovykh splavov novogo pokoleniia [VIAM experience in the field of development and research of economically alloyed titanium alloys of new generation] // Trudy VIAM: elektron. nauch.-tekhnich. zhurn. 2016. №9 (45). St. 05. URL: http://www.viam-works.ru (data obrashcheniia: 03.08.2017). DOI: 10.18577/2307-6046-2014-0-9-5-5.
- Boyer R.R., Briggs R.D. The Use of β Titanium Alloys in the Aerospace Industry //Journal of Materials Engineering and Performance. 2005. 14 (6). P. 681–685.
- Moiseev V.N. Beta-titanovye splavy i perspektivy ikh razvitiia [Beta titanium alloys and perspectives of their development] //MiTOM. 1998. №12. S. 11–14.
- Shiriaev A.A., Nochovnaia N.A., Burkhanova A.A., Antashev V.G. Perspektivy i vozmozhnosti sozdaniia ekonomnolegirovannykh beta-titanovykh splavov [Perspectives and possibilities of creation of economically alloyed beta titanium alloys] // Sb. tr. mezhdunar. konf. «Ti-2013 v SNG». 2013. S. 14–18.
- Tetiukhin V.V., Gribkov Iu.A., Moder N.I., Vodolazskii V.F. Issledovanie strukturnykh i fazovykh prevrashchenii v splave VT35 pri izgotovlenii tonkikh listov [Research of structural and phase transformations in alloy ВТ35 when manufacturing thin sheets] // Titan. 1996. №1 (9). S. 25–29.
- Kablov E.N. Strategicheskie napravleniya razvitiya materialov i tekhnologiy ikh pererabotki na period do 2030 goda [The strategic directions of development of materials and technologies of their pro-cessing for the period till 2030] // Aviatsionnye materialy i tekhnologii. 2012. №S. S. 7–17.
- Kablov E.N., Nochovnaia N.A., Gribkov Iu.A., Shiriaev A.A. Razrabotka vysokoprochnogo titanovogo psevdo-β-splava i tekhnologii polucheniia polufabrikatov iz nego [Development high-strength titanic pseudo-β-alloy and technologies of receiving semi-finished products from it] // Voprosy materialovedeniia. 2016. №3 (87). S. 23–31.
- Vysokoprochnyi splav na osnove titana i izdelie, vypolnennoe iz vysokoprochnogo splava na osnove titana [High-strength alloy on the basis of titanium and the product executed from high-strength alloy on the basis of titanium]: pat. 2569285 Ros. Federatsiia; zaiavl. 29.12.14; opubl. 20.11.15, Biul. №32.
- Shiriaev A.A., Antashev V.G. Osobennosti razrabotki vysokoprochnogo samozakalivaiushchegosia vysokotekhnologichnogo psevdo-β-titanovogo splava [Peculiarities of development of advanced high-strength self-hardening high-processable pseudo-β-titanium alloys] // Aviatsionnye materialy i tekhnologii. 2014. №4. S. 23–30. DOI: 10.18577/2071-9140-2014-0-4-23-30.
- Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemelnye elementy – materialy sovremennyh i budushhih vysokih tehnologij [Rare metals and rare-earth elements are materials for modern and future high technologies] // Aviacionnye materialy i tehnologii. 2013. №S2. S. 3–10.
- Shiryaev A.A., Nochovnaya N.A. [Study of structure and chemical composition of pilot high-alloyed titanium alloy ingots] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №9. St. 06. Available at: http://www.viam-works.ru (accessed: August 3, 2017). DOI: 10.18577/2307-6046-2015-0-9-6-6.
- Aleksandrov V.K., Anoshkin N.F. i dr. Polufabrikaty iz titanovykh splavov [Semi-finished products from titanium alloys]. M.: VILS, 1996. 581 s
