REVIEW OF THE INVESTMENT CASTING OF TiAl-BASED INTERMETALLIC ALLOYS

doi:10.3724/SP.J.1037.2013.00536

Acta Metall Sin

2013, Vol. 49

Issue (11): 1281-1285 DOI: 10.3724/SP.J.1037.2013.00536

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REVIEW OF THE INVESTMENT CASTING OF TiAl-BASED INTERMETALLIC ALLOYS

CHEN Yuyong^1,2), JIA Yi^1,2), XIAO Shulong^1,2), TIAN Jing ²⁾, XU Lijuan ²⁾

1) National Key Laboratory of Science and Technology on Precision Heat Processing of Metals, Harbin Institute of Technology, Harbin 150001
2) School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001

Cite this article:

CHEN Yuyong, JIA Yi, XIAO Shulong, TIAN Jing, XU Lijuan. REVIEW OF THE INVESTMENT CASTING OF TiAl-BASED INTERMETALLIC ALLOYS. Acta Metall Sin, 2013, 49(11): 1281-1285.

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Abstract

TiAl－based intermetallic alloys are emerging as a new generation light—weight, high temperature structural materials and possess wide capacities of engineering applications in aeronautics, space and automobile industries. Near—net—shape casting is a commonly used manufacturing method for TiAl—based alloys. In this paper, the evolution of the alloy design and investment casting technology of TiAl—based alloys are reviewed. The prospects of the investment casting of TiAl—based alloys are also represented.

Key words: TiAl—based intermetallic alloy investment casting ceramic shell application research

Received: 02 September 2013

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	CHEN Yuyong
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	TIAN Jing
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https://www.ams.org.cn/EN/10.3724/SP.J.1037.2013.00536 OR https://www.ams.org.cn/EN/Y2013/V49/I11/1281

[1] Kim Y W. JOM, 1995; 47: 39

[2] Carneiro T, Kim Y W. Intermetallics, 2005; 13: 1000

[3] McQuay P A, Sikka V K. In: Westbrook J H, Fleischer R L, eds.,Intermetallic Compounds. Chichester: John Wiley & Sons Ltd., 2002: 591

[4] Chen G L, Wang J G, Sun Z Q, Ye H Q. Intermetallics, 1994; 2: 31

[5] Tetsui T, Shindo K, Kobayashi S, Takeyama M. Scr Mater, 2002; 47: 399

[6] Zhang W J, Liu Z C, Chen G L, Kim Y W. Mater Sci Eng, 1999; A271: 416

[7] Jung H G, Kim K Y. Oxid Met, 2002; 58: 197

[8] Wallgram W, Schmolzer T, Cha L M, Das G, Guther V, Clemens H. Int J Mater Res, 2009;100: 1021

[9] Hu D, Wu X, Loretto M H. Intermetallics, 2005; 13: 914

[10] Jones S, Yuan C. J Mater Process Technol, 2003; 135: 258

[11] Su Y Q, Guo J J, Jia J. J Aeron Mater, 1999; 19(4): 11

(苏彦庆, 郭景杰, 贾均. 航空材料学报, 1999; 19(4): 11)

[12] Kuang J P, Harding R A, Campbell J. Mater Sci Eng, 2002; A329: 31

[13] Kim M G, Kim Y J. Met Mater Int, 2002; 8: 289

[14] Nowak R, Lanata T, Sobczak N, Ricci E, Giuranno D, Novakovic R,Holland—Moritz D, Egry I. J Mater Sci, 2010; 45: 1993

[15] Kuang J P, Harding R A, Campbell J. Mater Sci Technol, 2000; 16: 1007

[16] Cui R J, Gao M, Zhang H, Gong S K. J Mater Process Technol, 2010; 210: 1190

[17] Teodoro O, Barbosa J, Naia M D, Moutinho A M C. Appl Surf Sci, 2004; 231: 854

[18] Tetsui T, Kobayashi T, Mori T, Kishimoto T, Harada H. Mater Trans, 2010; 51: 1656

[19] Lapin J, Ondrus L, Nazmy M. Intermetallics, 2002; 10: 1019

[20] Liu A H, Li B S, Nan H, Sui Y W, Yu J, Guo J J, Fu H Z. Rare Met Mater Eng, 2007; 36:1975

(刘爱辉, 李邦盛, 南海, 隋艳伟, 于杰, 郭景杰, 傅恒志. 稀有金属材料与工程,2007; 36: 1975)

[21] Barbosa J, Puga H, Ribeiro C S, Teodoro O, Monteiro A C. Int J Cast Met Res, 2006; 19:331

[22] Cheng X, Yuan C, Green N, Withey P. Metall Mater Trans, 2013; 44A: 888

[23] Larsen D E, Christodoulou L, Kampe S L, Sadler P. Mater Sci Eng, 1991; A144: 45

[24] Jia Q, Cui Y Y, Yang R. J Mater Sci, 2006; 41: 3045

[25] Kim M G, Kim S K, Kim Y J. Mater Trans, 2002; 43: 745

[26] Yuan C, Jones S. J Eur Ceram Soc, 2003; 23: 399

[27] Chen Y F, Xiao S L, Tian J, Xu L J, Kong F T, Chen Y Y. China Foundry, 2011; 8: 9

[28] Liu K, Ma Y C, Gao M, Rao G B, Li Y Y, Wei K, Wu X H, Loretto M H.Intermetallics, 2005; 13: 925

[29] Baake E, Nacke B, Bernier F, Vogt M, Muhlbauer A. Compel, 2003; 22: 88

[30] Mi J, Harding R A, Wickins M, Campbell J. Intermetallics, 2003; 11: 377

[31] Gomes F, Barbosa J, Ribeiro C S. Intermetallics, 2008; 16: 1292

[32] Barbosa J, Ribeiro C S, Monteiro A C. Intermetallics, 2007; 15: 945

[33] Tetsui T, Kobayashi T, Kishimoto A, Harada H. Intermetallics, 2012; 20: 16

[34] Sung S Y, Kim Y J. Intermetallics, 2007; 15: 468

[35] Campbell J. Int J Metalcasting, 2012; 6: 7

[36] Harding R A, Wickins M, Wang H, Djambazov G, Pericleous K A.Intermetallics, 2011; 19: 805

[37] Noda T. Intermetallics, 1998; 6: 709

[38] Tetsui T. Mater Sci Eng, 2002; A329: 582

[39] Aguilar J, Schievenbusch A, Kattlitz O. Intermetallics, 2011; 19: 757

[40] Lavery N P, Jarvis D J, Voss D. Intermetallics, 2011; 19: 787

[41] Reitz J, Lochbichler C, Friedrich B. Intermetallics, 2011; 19: 762

[42] Jarvis D J, Voss D. Mater Sci Eng, 2005; A413: 583

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[4]	. [J]. 金属学报, 2007, 43(10): 1113-1120 .

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