High-Temperature Chemistry and Oxidation of ZrB2Ceramics Containing SiC, Si3N4, Ta5Si3, and TaSi2-Reference-Cited by-同舟云学术

High-Temperature Chemistry and Oxidation of ZrB2Ceramics Containing SiC, Si3N4, Ta5Si3, and TaSi2

Published:2008-07 Issue:7 Volume:91 Page:2250-2257
ISSN:0002-7820
Container-title:Journal of the American Ceramic Society
language:en
Short-container-title:

Author:

Talmy Inna G.,Zaykoski James A.,Opeka Mark M.

Publisher

Wiley

Subject

Materials Chemistry,Ceramics and Composites

Link

http://onlinelibrary.wiley.com/wol1/doi/10.1111/j.1551-2916.2008.02420.x/fullpdf

Reference36 articles.

1. 1 M. M. Opeka , I. G. Talmy , and J. A. Zaykoski , “Oxidation-based Materials Selection for 2000°C+ Hypersonic Aerosurfaces: Theoretical Considerations and Historical Experience: Special Section: Ultra-High Temperature Ceramics (Guest Editors: Joan Fuller and Michael D. Sacks),” J. Mater. Sci., 39 [19] 5887-904 (2004).

2. 2 W. G. Fahrenholtz , G. E. Hilmas , I. G. Talmy , and J. A. Zaykoski , “Refractory Diborides of Zirconium and Hafnium,” J. Am. Ceram. Soc., 90 [5] 1347-64 (2007).

3. 3 R. E. Loehman , “Ultrahigh-Temperature Ceramics For Hypersonic Vehicle Applications,” Ind. Heating, 71 [1] 36-8 (2004).

4. 4 S. R. Levine , E. J. Opila , M. C. Halbig , J. D. Kiser , M. Singh , and J. A. Salem , “Evaluation of Ultra-High Temperature Ceramics for Aeropropulsion Use,” J. Eur. Ceram. Soc., 22 [1415] 2757-67 (2002).

5. 5 J. R. Fenter , “Refractory Diborides as Engineering Materials,” SAMPE Quart., 2 [3] 1-15 (1971).

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