Sage Journals: Discover world-class research

Abstract

Ni–43Ti–7Al (at-) alloy was directionally solidified at different withdrawal rates (2, 20 and 100 μm s⁻¹) and a constant temperature of 1550°C by liquid metal cooling method. Results show that as the withdrawal rate decreases from 100 to 2 μm s⁻¹, the cellular arm spacing increases from 39·5 to 126 μm, the size of Ti₂Ni and the stability of the liquid/solid interface also increase, while the volume fraction of Ti₂Ni decreases from 3·1 to 0·9. Moreover, microstructural analysis reveals that a NiTi+Ti₂Ni anomalous eutectic structure is formed in intercellular regions of directionally solidified samples withdrawn at 20 and 100 μm s⁻¹. However, in the sample withdrawn at 2 μm s⁻¹, Ti₂Ni phases represent strip and liquid droplet morphologies in the intercellular region. Finally, the possible explanation to the change of microstructure is discussed.

Keywords

NiTi–Al alloy Microstructure Oxygen

Get full access to this article

View all access options for this article.

References

Otsuka

, Wayman

: ‘Shape memory materials’, 1; 1998, London, Cambridge University Press.

Duerig

, Melton

, Stöckel

, Wayman

: ‘Engineering aspects of shape memory alloys’, 130; 1990, London, Btterworth-Heinemann.

Koizumi

, Ro

, Nakazawa

, Harada

: Mater. Sci. Eng. A , 1997, A223, 36–41.

Warren

, Murakami

, Koizumi

, Harada

: Mater. Sci. Eng. A , 1997, A223, 17–20.

Meng

: ‘Study of NiTi–Al based high temperature structural materials’, PhD thesis, Beihang University, Beijing, China, 2006.

Meng

, Li

, Zhao

, Xu

: Intermetallics , 2007, 15, 814–818.

Kollerov

MYu

, Ilyin

, Pol'kin

, Fainbron

, Gusev

, Khachin

: Russ. Metall. , 2007, 5, 408–414.

Mentz

, Bram

, Buchkremer

, Stöver

: Adv. Eng. Mater. , 2006, 8, (4), 247–252.

Nevitt

: Trans. Metall. Soc. AIME , 1960, 218, 327.

10.

Mackay

, Miller

, Franzen

: J. Alloys Compd , 1994, 204, 109–118.

11.

Zhou

, Zheng

, Zhang

: Mater. Res. Innovations , DOI 10.1179/1433075X11Y.0000000043, to be published.

12.

Frenzel

, George

, Dlouhy

, Somsen

, Wagner

MF.-X

, Eggeler

: Acta Mater. , 2010, 58, 3444–3458.

13.

Zhang

, Gao

, Tang

, Zhang

: Acta Metall. Sinica , 2010, 46, (7), 890–896.

14.

Murray

: ‘The Ti–Ni system, phase diagrams of binary titanium alloys’, 197; 1987, Materials Park, OH, ASM International.

15.

Eckert

, Mattern

, Zinkevitch

, Seidel

: Mater. Trans. JIM , 1998, 39, 623.

16.

Yang

, Ye

, Kramer

, Sordelet

: J. Alloys Compd , 2009, 484, 914–919.

17.

Liu

, Chisholm

, Miller

: Intermetallics , 2002, 10, 1105–1112.

18.

Zander

, Janlewing

, Rüdiger

, Köster

: Mater. Sci. Forum , 1999, 307, 25–30.

19.

Nagarajan

, Chattopadhyay

: Acta Metall. Mater. , 1994, 42, (3), 947–958.

20.

Rigo

, Otubo

, Moura

NetoC

, Mei

: J. Mater. Process. Technol. , 2005, 162/163, 116–120.

21.

, Lin

, Yang

, Chen

, Huang

: J. Alloys Compd , 2009, 480, 782–787.

22.

Mueller

, Schaefer

, Perepezko

: J. Mater. Res. , 1987, 2, 809.

23.

Liu

, Lan

, Yang

, Zhou

: J. Cryst. Growth , 2004, 271, 313–318.

24.

Barth

, Wei

, Herlach

, Feuerbacher

: Mater. Sci. Eng. A , 1994, A178, 305–307.

25.

Nagasgio

, Takamura

, Kuribayashi

: Scr. Mater. , 1999, 41, (11), 1161–1167.

26.

Hillert

: ‘Solidification and casting of metals’, 81; 1979, London, The Metals Society Press.

27.

Perepezko

, Boettinger

: Mater. Res. Soc. Symp. Proc. , 1983, 19, 223–240.

Microstructural characteristics of directionally solidified Ni–43Ti–7Al alloys

Abstract

Keywords

Get full access to this article

References