Abstract
The dependence of the kinetics of globularization of the lamellar structure in titanium alloy VT9 (Ti-6.6%Al-3.5%Mo-1.7%Zr-0.27%Si) on the character of high-temperature loading was investigated. It was found that monotonic methods of loading (tension, torsion, tension with simultaneous torsion) were more effective means of refining the structure than non-monotonic ones (reverse torsion, torsion alternate with tension, multiaxial forging).
Similar content being viewed by others
References
“Metallography of Titanium Alloys” edited by S. G. Glazunov and B. A. Kolachev, (“Metallurgy” Publishing House, Moscow, 1980) (in Russian).
V. K. Alexandrov, N. F. Anoshkin, G. A. Bochvar et al., “Semimanufactured Articles made of Titanium Alloys” (“Metallurgy” Publishing House, Moscow, 1979) (in Russian).
O. A. Kaibyshev, R. Ya. Lutfullin and G. A. Salishchev, Phys Metals. Metall. 66 (1988) 1163 (in Russian).
I. Weiss, G. E. Welsch, F. H. Froes and D. Eylon, in “Proceedings of the 5th International Conference on Titanium”, Munich, Germany edited by G. Lutyerung, U. Zwicker and W. Bunk, DGM, (1984) p. 1503.
N. Z. Percovski, N. M. Semenova, M. Ya. Brun and O. A. Mazolevskaya, Phys. Metals Metall. 57 (1984) 737 (in Russian).
A. A. Iljushin, “Mathematical modeling of the rheological behaviour of materials during superplastic forming processes”, Ph.D. Thesis, Institute for Metals Superplasticity Problems, Ufa, Russia, 1993, (in Russian).
F. U. Enikeev, in “Proceedings of the International Conference on Superplasticity in Advanced Materials” (ICSAM-94), Moscow, May 1994, Report p. 7–24.
G. A. Salishchev, M. I. Mazurski and I. E. Levin, Phys. Metals Metall. 68 (1990) 149 (in Russian).
O. V. Dmitriev, Bull. Moscow State Univ. Ser. 1 Math. Mech. (3) (1992) 66 (in Russian).
R. M. Galeev and M. I. Mazurski, unpublished results (1990).
E. A. Chojnowski and W. J. McG. Tegart, Metal Sci. J. 2 (1968) 14.
H. Margolin and P. Cohen, in “Proceedings of the 4th International Conference on Titanium,” Kyoto, Japan, May 1980, Vol. 2 (New York), p. 1555.
M. I. Mazurski and G. A. Salishchev, Phys. Status Solidi (b) 188 (1995) 653.
Idem, Proc. USSR Acad. Sci. Ser. Metals (6) (1990) 83 (in Russian).
R. O. Kaibyshev and O. Sh. Sitdikov, Trans. USSR Acad. Sci. 321 (1991) 306 (in Russian).
V. P. Severdenko, M. I. Kalachev and P. P. Ankut, in “Plasticity and Metal Working”, edited by V. P. Severdenko (“Science and Engineering” Publishing House, Minsk, USSR, 1966) p. 302 (in Russian).
P. I. Poluhin, S. S. Gorelik and V. K. Vorontcov, “Physical Principles of the Plastic Deformation” (“Metallurgy” Publishing House, Moscow, 1982) p. 584 (in Russian).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Korshunov, A.A., Enikeev, F.U., Mazurski, M.I. et al. Grain-structure refinement in titanium alloy under different loading schedules. JOURNAL OF MATERIALS SCIENCE 31, 4635–4639 (1996). https://doi.org/10.1007/BF00366363
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF00366363