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Abstract

An investigation of transient liquid phase bonding of single crystal NiAl to a conventional polycrystalline nickel base superalloy MM247 is presented here. The NiAl substrate material employed was cast single crystal NiAl (B2 compound, β phase) with 1·5 at.-% hafnium (Hf) as an alloying element. The interlayers employed in the bonds were 50 μm thick pure copper foils. Based on investigations employing transmission electron microscopy and scanning electron microscopy with energy dispersive X-ray spectrometry, the microstructural changes in the joint region and the adjacent substrates were examined as a function of bonding time at a temperature of 1150°C. The results indicated that hafnium as an alloying element in single crystal NiAl had a strong effect on the microstructure of joints. In particular, attention is focused on the formation of Hf bearing phases and the suppression of σ phase precipitation during bonding.

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References

MIRACLE

D. B.

and DAROLIA

: in Intermetallic compounds’,Vol. 2, ‘Practice’, (ed. Westbrook

J. H.

and Fleischer

R. L.

), 53-71; 1994, New York, Wiley.

MIRACLE

D. B.

: Scr. Metall. Mater., 1993, 41, 649–684.

PANK

D. R.

, NATHAL

M. V.

, and KOSS

D. A.

: J. Mater. Res., 1990, 5, 942–949.

GALE

W. F.

and ABDO

Z. A. M.

: J. Mater. Sci., to be published.

BAESLACK

III and FROES

F. H.

: JOM, 1995, 47, (3), 13–15.

MOORE

Weld. J., 1990,69, (3), 98s-102s.

OREL

s. V.

, PAROUS

L. C.

, and GALE

W. F.

Weld. J., 1995,74, (3), 319s-324s.

RUAN

, WANG

, and ZHENG

: Scr. Mater., 1996, 34, 163–168.

STRUM

M. J.

and HENSHALL

H. A.

: in ‘Proc. advanced joining technologies for new materials II’, (ed. David

), 76-88; 1994, Miami, FL, American Welding Society.

10.

MOORE

T. J.

and KALINOWSKI

J. M.

: in ‘High-temperature ordered intermetallic alloys V’, (ed. Baker

et al), MRS Symp. Proc.,Vol. 288, 1173-1178; 1993, Pittsburgh, PA, Materials Research Society.

11.

DUVALL

D. S.

, OWCZARSKI

W. A.

, and PAULONIS

D. F.

: Weld. J., 1974, 53, (4), 203–214.

12.

ZHAI

, NORTH

T. H.

, and SERRATO-RODRIGUES

: J. Mater. Sci., 1997, 32, 1393–1397.

13.

GALE

W. F.

and OREL

S. V.

: J. Mater. Sci., 1996, 31, 345–349.

14.

GALE

W. F.

and GUAN

: Metall. Mater. Trans. A, 1996, 27A, 3621–3629.

15.

STROHAECKER

T. R.

, MOORE

J. J.

, and EDWARDS

G. R.

: Scr. Metall. Mater., 1994, 30, 463–468.

16.

GALE

W. F.

and GUAN

: submitted to J. Mater. Sci.

17.

GALE

W. F.

and KING

J. E.

: Metall. Trans. A, 1992, 23A, 2657–2665.

18.

GALE

W. F.

and KING

J. E.

: J. Mater. Sci., 1993, 28, 4347–4354.

19.

LOCCI

I. E.

, DICKERSON

, BOWMAN

R. R.

, WHITTENBERGER

J. D.

, NATHAL

M. V.

, and DAROLIA

: in ‘High-temperature ordered intermetallic alloys V’, (ed. Baker

et al), MRS Symp. Proc.,Vol. 288, 685-690; 1993, Pittsburgh, PA, Materials Research Society.

20.

ROSS

and SIMS

C. T.

: in ‘Superalloys II: High-temperature materials for aerospace and industrial power’, (ed. Sims

C. T.

et al), 97-133; 1987, New York, Wiley.

21.

TURKDOGAN

E. T.

: ‘Physical chemistry of high temperature technology’, 23; 1972, New York, Academic Press.

Transient liquid phase bonding of a Hf bearing single crystal nickel aluminide to MM247 superalloy

Abstract

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