Abstract
Means of improving and stabilizing the mechanical properties of titanium alloys are proposed: alloying with fewer alloying elements; thermal and thermomechanical treatment.
Similar content being viewed by others
References
Khorev, A.I., Kompleksnoe legirovanie i termomekhanicheskaya obrabotka titanovykh splavov (Complex Alloying and Thermomechanical Treatment of Titanium Alloys), Moscow: Mashinostroenie, 1979.
Khorev, A.I., Sovremennye metody povysheniya konstrukstionnoi prochnosti titanovykh splavov (Improving the Structural Strength of Titanium Alloys), Moscow: Voenizdat, 1979.
Khorev, A.I., Opyt primeneniya titanovykh splavov v narodnom khozyaistve (Economic Experience with Titanium Alloys), Moscow: TsNIITEMS, 1977.
Belov, S.P., Khorev, A.I., Khorev, M.A., et al., Metallovedenie titana i ego splavov (Physical Metallurgy of Titanium and Its Alloys), Moscow: Metallurgiya, 1992.
Khorev, A.I., Theoretical and Practical Principles for Improving the Structural Strength of Titanium Alloys by Complex Alloying and Microalloying, Tr. mezhdunar. konf. Ti-2007 v SNG (Proceedings of International Conference on Titanium in the Commonwealth of Independent States in 2007), Kiev: Mezhgosudarstvennaya Assotsiatsiya Titan-NAU, 2007, pp. 226–234.
Khorev, A.I., Theoretical and Practical Principles for Improving the Structural Strength of Titanium Alloys by Heat Treatment, Thermomechanical Treatment, and Textural Strengthening, Tr. mezhdunar. konf. Ti-2007 v SNG (Proceedings of International Conference on Titanium in the Commonwealth of Independent States in 2007), Kiev: Mezhgosudarstvennaya Assotsiatsiya Titan-NAU, 2007, pp. 423–430.
Khorev, A.I., Influence of Complex Alloying on the Mechanical Properties of Weld Joints and The Basic Metal in (α + β) and β Titanium Alloys, Tekhnol. Mashinostr., 2007, no. 2, pp. 29–34.
Khorev, A.I., Theoretical and Practical Principles for Producing Titanium Alloys of High and Superhigh Structural Strength, Tr. mezhdunar. konf. Ti-2008 v SNG (Proceedings of International Conference on Titanium in the Commonwealth of Independent States in 2008), Kiev: Mezhgosudarstvennaya assotsiatsiya Titan-NAU, 2008, pp. 248–261.
Khorev, M.A. and Khorev, A.I., Titanium Alloys: Their Application and Further Development, Materialovedenie, 2005, no. 7, pp. 25–34.
Khorev, A.I., Titanium Alloys for the Aerospace Industry and Their Prospects, Aviats. Mater. Tekhnol., 2002, pp. 11–32.
Khorev, A.I., Titanium in High-Speed Aviation and Aeronautics, Tekhnol. Legk. Splavov, 2002, no. 4, pp. 92–97.
Khorev, A.I., Mechanical Properties of Weld Joints in (α + β) and β Titanium Alloys, Tsvet. Met., 2006, no. 1, pp. 77–83.
Khorev, A.I., VT23 Titanium Alloy and the Best Foreign Counterparts, Titan, 2006, no. 1 (18), pp. 47–52.
Khorev, M.A., Strukturno-fazovoe sostoyanie i nadezhnost svarnykh soedinenii titanovykh splavov (Structure-Phase State and Reliability of Weld Joints in Titanium Alloys), Moscow: NPO VIAM, 1991.
Khorev, A.I., Development of Titanium Alloys by Complex Alloying, Fiz.-Khim. Mekhan. Mater., 2006, vol. 42, no. 5, pp. 45–50.
Author information
Authors and Affiliations
Additional information
Original Russian Text © A.I. Khorev, 2010, published in Vestnik Mashinostroeniya, 2010, No. 7, pp. 32–39.
About this article
Cite this article
Khorev, A.I. Alloying and heat treatment of structural (α + β) titanium alloys of high and superhigh strength. Russ. Engin. Res. 30, 682–688 (2010). https://doi.org/10.3103/S1068798X10070075
Published:
Issue Date:
DOI: https://doi.org/10.3103/S1068798X10070075