Modes of hardening of a high-strength (α+β)-titanium alloy VT23 for use in aeronautical engineering

New modes of thermal hardening of various semi-finished products made from high-strength titanium alloy VT23 are recommended, and the mechanical and special properties obtained as a result of their research are given.

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5. . Fedulov V. N., Chorev A. I. Sposob termicheskoy obrabotki krupnogabaritnych polufabrikatov iz dvuchfaznych titanovych splavov [Method of heat treatment of large-sized semi-finished products from biphase titanium alloys]. A. s. no. 1492756 USSR, MKI: C 22F1/18. Opubl. 10.11.89.

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8. . Fedulov V. N., Chorev A. I., Demakov S. L., Popov A. A. Sposob termicheskoy obrabotki polufabrikatov peremennogo secheniya [Method of heat treatment of semi-finished products of variable cross-section]. A. s. no. 1593276 USSR, MKI: C 22F1/18. Opubl. 15 .05 .90 .

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10. . Fedulov V. N., Chorev A. I., Popov A. A. i drugie. Sposob obrabotki polufabrikatov iz dvuchfaznych titanovych splavov [Method of processing semifinished products from biphase titanium alloys]. A. s. no. 1427864 USSR, MKI: C 22F1/18. Opubl. 01.06.88.

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14. . Fedulov V. N., Chorev A. I. Sposob termicheskoy obrabotki zagotovok iz dvuchfaznych titanovych splavov [Method of heat treatment of billets from biphase titanium alloys]. A. s. no. 1459273 USSR, MKI: C 22F1/18. Opubl. 10.01.89.

15. . Fedulov V. N., Chorev A. I., Martynova M. M., Popov A. A. Sposob obrabotki dlinnomernych polufabrikatov iz dvuchfaznych titanovych splavov [Method for processing long-length semi-finished products from biphase titanium alloys]. A. s. no. 1427863 USSR, MKI: C 22F1/18. Opubl. 01.06.88.

16. . Fedulov V. N., Chorev A. I., Martynova M. M. Sposob termicheskoy obrabotki svarnych izdeliy iz dvuchfaznych titanovych splavov [Method of heat treatment of welded products from two-phase titanium alloys]. A. s. no. 1579077 USSR, MKI: C 22F1/18. Opubl. 15.03.90.

17. . Fedulov V. N. Sposob termicheskoy obrabotki izdeliy iz dvuchfaznych titanovych splavov [Method of thermal treatment of products from (α+β)-titanium alloys]. Patent of the Republic Belarus, no. 9345. Opub. 08.07. 2004.

18. . Fedulov V. N. Opredelenie dopustimogo verchnego predela uprochneniya splava VT23 v processe termicheskoy obrabotki izdeliy iz zagotovok plit [Determination of the allowable upper limit of hardening of the VT23 alloy in the course of heat treatment of products from plate blanks]. Lit’e i metallurgiya = Foundry production and Metallurgy, 2007, no. 4 (44), pp. 92–95.

19. . Fedulov V. N. Rezhimy termicheskogo uprochneniya i svoystva splava VT23 pri povyshennych temperaturach [Modes of thermal hardening and properties of VT23 alloy at elevated temperatures]. Lit’e i metallurgiya = Foundry production and metallurgy, 2008, no. 1 (46), pp. 155–157.

20. . Fedulov V. N. Perspektivnye technologii termicheskogo uprochneniya krupnogabaritnych izdeliy iz dvuchfaznych titanovych splavov [Perspective technologies of thermal hardening of large-sized products from two-phase titanium alloys]. Lit’e i metallurgiya = Foundry production and metallurgy, 2005, no. 2 (34), pp. 171–173.

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22. . Fedulov V. N., Chorev A. I., Popov A. A. Vliyanie intensivnosti ochlazhdeniya s temperatury 850°C na vybor rezhimov posleduyushego stareniya izdeliy iz splava VT23 [Influence of the cooling intensity from the temperature of 850 °C on the choice of the regimes of the subsequent aging of products made of the VT23 alloy]. Technologiya: Oborudovanie, materialy, processy = Technology: Equipment, materials, processes, 1988, no. 4, pp. 21–25.

23. Fedulov V. N. O vliyanii nekotorych technologicheskich parametrov stareniya na svoystva detaley iz goryachedeformirovannych (α+β)-titanovych splavov [On the influence of some technological parameters of aging on the properties of parts from hot-deformed (α+β)-titanium alloys]. Aviacionnaya promyshlennost’ = Aviation industry, 1990, no. 9, pp. 69–71.