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HomeKey Engineering MaterialsKey Engineering Materials Vols. 230-232Production and Characterization of Reactive Hot...

Production and Characterization of Reactive Hot Isostatic Pressed Ti48Al and Ti48Al1Ag Alloys

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Advanced Materials Forum I

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Periodical:

Key Engineering Materials (Volumes 230-232)

Pages:

80-83

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.230-232.80

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Online since:

October 2002

Authors:

Filipe Neves, Teresa Marcelo, M. Helena Carvalho

Keywords:

Mechanical Property, Microstructure, Reactive Hot Isostatic Pressing RHIP, Titanium Aluminide, γ-TiAl Alloys

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© 2002 Trans Tech Publications Ltd. All Rights Reserved

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[1] Y-W. Kim, JOM, 46 (7) (1994), p.30.

[2] F. Neves, T. Marcelo, M. H. Carvalho, Key Eng. Mat., vol. 188 (2000), p.27.

[3] Liu Yong, Huang Bai-yun, He Yue.hui, Transactions of Nonferrous Metals Society of China, nº1, vol. 10 (2000), p.29.

[4] W.Y. Yang and G.C. Weatherley, J. Mater. Sci., 31 (1996), p.3707.

[5] F. Neves, T. Marcelo, M. H. Carvalho, Proceedings of the 9 th Meeting of SPM - MATERIAIS 99, vol. 1 (1999), p.103 (in Portuguese).

[6] ASTM E 112-96, Annual Book of ASTM Standards 2000, ASTM, PA, USA, 03.01, p.240.

[7] ASTM E 1876-99, Annual Book of ASTM Standards 2000, ASTM, PA, USA, 03.01, p.1075.

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[9] Gerhard Sauthoff, Intermetallics, VCH FRG (1995), pp.14-30.

[10] Material Properties Handbook - Titanium Alloys, ASM Intern., Materials Park (1994), p.1011.

[11] D. Schneider, T. Jewett, C. Gente, K. Segtrop, M. Dahms, Structural Intermetallics, ed. by M. V. Nathal, R. Darolia, C. T. Liu, P. L. Martin, D. B. Miracle, R. Wagner and M. Yamaguchi, TMS, (1997), pp.453-460.

[12] K. W. Gao, M. Nakamura, Scripta Mater., 43 (2000), p.135.

[13] Courtesy of Plansee (Mr. Heiko Wildner).

[14] F. Neves,T. Marcelo, M.H. Carvalho, submitted to EUROMAT 2001, Rimini, June 2001.