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30-11-2019

Structure, Phase Composition and Mechanical Properties of Hot-Extruded Ti–3Al–2.5V Pipe After Vacuum Annealing

Authors: I. Yu. Pyshmintsev, Ya. I. Kosmatskii, E. A. Gornostaeva, A. G. Illarionov, F. V. Vodolazskii, P. S. Radaev, M. S. Karabanalov

Published in: Metallurgist | Issue 7-8/2019

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Abstract

The structure and properties of the hot-extruded Ti–3Al–2.5V pipe 90.0 × 20.0 mm in cross section subjected to vacuum annealing are studied using methods of macro-, micro-, X-ray analyses, tensile and Vickers hardness tests. It is shown that during vacuum annealing within the microstructure there is development of α-phase and formation of a more equilibrium (α + β)-condition compared with the condition after hot extrusion, and these changes are reflected in phase parameters, their volume fraction and chemical composition. It is shown that development of recrystallization processes through a pipe cross section also play a specific role in forming the textural condition in different areas of the cross section (outer surface, 1/2 wall thickness, inner surface of the pipe). It is noted that vacuum annealing facilitates a reduction in the scatter of hardness in a pipe cross section and to formation of the combination of mechanical properties with good ductility and a moderate strength level.

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V. G. Smirnov, B. G. Krokhin, and V. S. Kalinin, “Assimilation of production of high quality pipe billets (TREX) of titanium alloys for aerospace hydraulic systems,” Titan, No. 1, 36–39 (2003).

C. E. Forney and S. E. Meredith, Ti–3Al–2.5V Seamless Tubing Engineering Guide, Sandvik Special Metals Corp., Kennewick, Wash., USA (1990).

A. A. Il’in, B. A. Kolachev, and I. S. Pol’kin, Titanium Alloys. Composition, Structure, Properties. Handbook [in Russian], VILS MATI, Moscow (2009).

Ya. I. Kosmatskii, E. A. Filyaeva, N. V. Fokin, et al., “Determination of the technological possibility of preparing a new form of seamless TREX pipe made of titanium alloy Ti–3Al–2.5V,” Kachestvo Obrab. Materialov., No. 2(6), 15–22 (2016).

B. A. Kolachev, R. M. Gabidulin, and Yu. V. Piguzov, Non-Ferrous Metal Heat Treatment Technology [in Russian], Metallurgiya, Moscow (1992).

B. A. Kolachev, V. V. Sadkov, V. D. Talalalev, and A. V. Fishgoit, Vacuum Annealing of Titanium Structures [in Russian], Mashinostroenie, Moscow (1991).

A. G. Illarionov, Ya. I. Kosmatskii, E. A. Filyaeva, et al., “Experimental determination oft eh temperature parameters for evaluating the possibility of preparing hot-extruded pipes of alloy Ti–3Al–2.5V,” Metallurg, No. 9, 83–87 (2016)

Ya. I. Kosmatskii, N. V. Fokin, and E. A. Filyaeva, “Study of deformation capacity for titanium alloy Ti–3Al–2.5V and evaluation of technological possibility of preparing hot-extruded pipes from it,” Titan, No. 2(52), 18–22 (2016).

H. M. Rietveld, “A profile refinement method for nuclear and magnetic structures,” J. Appl. Crystallography, No. 2, 65–71 (1969).CrossRef

10.

SANDVIK Ti GRADE 9 “Tube and pipe, seamless,” SANDVIK datasheet (2017).

11.

U. Tsvikker, Titanium and its Alloys [in Russian], Mir, Moscow (1979).

12.

R. Boyer, G. Welsch, and E. W. Collings, Materials Properties Handbook: Titanium Alloys, ASM International, The Material Information Society (1994).

Title: Structure, Phase Composition and Mechanical Properties of Hot-Extruded Ti–3Al–2.5V Pipe After Vacuum Annealing
Authors: I. Yu. Pyshmintsev
Ya. I. Kosmatskii
E. A. Gornostaeva
A. G. Illarionov
F. V. Vodolazskii
P. S. Radaev
M. S. Karabanalov
Publication date: 30-11-2019
Publisher: Springer US
Published in: Metallurgist / Issue 7-8/2019
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-019-00885-w

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