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HomeKey Engineering MaterialsKey Engineering Materials Vols. 264-268High Thermal Shock Resistant Aluminium Titanate...

High Thermal Shock Resistant Aluminium Titanate Type Ceramics

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Euro Ceramics VIII

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Key Engineering Materials (Volumes 264-268)

Pages:

993-996

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.264-268.993

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Online since:

May 2004

Authors:

Eniko Volceanov, A.M. Gurban, Adrian Volceanov, P. Niţă

Keywords:

Al₂TiO₅-ZrO₂, Anisotropy, Low Thermal Expansion Coefficient, Thermal Shock, Tialite

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© 2004 Trans Tech Publications Ltd. All Rights Reserved

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[1] Kuznetzov G.I., Kortel A.A., Borisov V.G., Akselrod L.M., Pivinski Y.: New Kinds of Refractories for Ferrous Metallurgy, UNITECR 91, Aachen, (1991)

[2] Persson M., Hamanson L., Carlson R.: Investigation of the Stability of Aluminium Titanate Ceramics, Sci. Ceram., Vol.11, (1981), pp.479-84

[3] Morrow K., Holcombre E., Cromer G.: Preparation of Aluminium Titanate Crucibles by Slip Casting for High Temperature Applications, Oak Ridge, Y-12, Plant Tennessee, (1978)

DOI: 10.2172/4625787

[4] Hamano K., Nakagawa Z., Sawano K., Hasegawa M.,: Effect of Additives on Several Properties of Aluminium Titanate Ceramic, J. Ceram. Soc. Japan, vol.10, (1987), pp.1647-55

DOI: 10.1246/nikkashi.1981.1647

[5] Kato E., Diamon K., Takahashi J.: J.Am. Ceram.Soc., 63, (1980), pp.355-56

[6] Ohya Y., Hamano K., Nagakawa Z.: Yogyo-Kyokai-Shi, 91,(1983), p.289

[7] Roy R.: Solid State Ionics, 3, (1989), p.32

[8] Shimada T., Mizuno M., Kurachi K., Kato N., Sakurada O., Hashida M., Nurishi Y.: J.Mater. Sci., 31, (1996), p.3691

[9] Volceanov E.: Report of Matnatech Project, No.12, (June 2002) Acknowledgement Romanian R&D National Programme MATNANTECH, Project, Nr.12/10.10.2001 has supported part of this work.