High-temperature chemistry and oxidation of ZrB 2 ceramics containing SiC, Si 3N 4, Ta 5Si 3, and TaSi 2

Journal of the American Ceramic Society

Volumn 91, Issue 7, 2008, Pages 2250-2257

  Talmy, Inna G ^a   Zaykoski, James A ^a   Opeka, Mark M ^a  

^a NAVAL SURFACE WARFARE CENTER   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

DIBORIDES; HIGH TEMPERATURES; LIQUIDUS TEMPERATURES; OXIDATION BEHAVIORS; OXIDATION RESISTANTS; OXIDIZING ENVIRONMENTS; OXYGEN DIFFUSIVITIES; PROTECTIVE LAYERS; SIC CERAMICS; TANTALUM OXIDES; TANTALUM SILICIDES;

BORIDES; CERAMIC MATERIALS; CHROMIUM; OXIDATION; OXIDATION RESISTANCE; OXYGEN; PHASE MODULATION; PHASE SEPARATION; SILICIDES; SILICON; SILICON CARBIDE; TANTALUM; TANTALUM COMPOUNDS; THERMAL EFFECTS; TRANSITION METALS;

BOROSILICATE GLASS;

EID: 53349133092     PISSN: 00027820     EISSN: 15512916     Source Type: Journal    
DOI: 10.1111/j.1551-2916.2008.02420.x     Document Type: Article

References (36)

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. 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. 3R. E. Loehman, "Ultrahigh-Temperature Ceramics For Hypersonic Vehicle Applications," Ind. Heating, 71 [1] 36-8 (2004).
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 [14/15] 2757-67 (2002).
5. J. R. Fenter, "Refractory Diborides as Engineering Materials," SAMPE Quart., 2 [3] 1-15 (1971).
6. E. V. Clougherty, D. Kalish, and E. T. Peters, "Research and Development Oxidation Resistant Diborides"; Technical Report AFML-TR-68-190, Manlabs Inc., Cambridge, MA 1968
7. A. L. Chamberlain, W. G. Fahrenholtz, G. E. Hilmas, and D. T. Ellerby, "Characterization of Zirconium Diboride for Thermal Protection Systems," Key Eng. Mater., 264-268, 493-6 (2004).
8. I. G. Talmy and J. A. Zaykoski, "Properties of Ceramics in the ZrB2/ZrC/SiC System Prepared by Reactive Processing," Ceram. Eng. Sci. Proc., 19 [3] 105-12 (1998).
9. 2," Ceram. Bull., 52 [8] 612-6 (1973).
10. 2 Composite," J. Electrochem. Soc., 122 [9] 1249-54 (1975).
11. E. V. Clougherty, R. L. Pober, and L. Kaufman, "Synthesis of Oxidation Resistant Metal Diboride Composites," Trans. Metals Soc. AIME, 242, 1077-82 (1968).
12. R. F. Voitovich, E. A. Pugach, and L. A. Menshikova, "High Temperature Oxidation of Zirconium Diboride," Sov. Powd. Met., 7 [6] 44-8 (1967).
13. 2-SiC Composite," J. Eur. Ceram. Soc., 25 [7] 1025-31 (2005).
14. F. Monteverde and A. Bellosi, "Production and Characterization of Ultra Refractory HfB2-SiC Composites," Ceram. Eng. Sci. Proc., 25 [4] 13-8 (2004).
15. W. G. Fahrenholtz, G. E. Hilmas, A. L. Chamberlain, and J. W. Zimmermann, "Processing and Characterization of ZrB2-Based Ultra-High Temperature Monolithic and Fibrous Monolithic Ceramics," J. Mater. Sci., 39 [19] 5951-7 (2004).
16. 2 Ceramics Modified with SiC and Group IV-VI Transition Metal Diborides"; pp. 144-158, Proceedings of the International Symposium on High Temperature Corrosion and Materials Chemistry III, 2001-12, Edited by M. McNallan, and E. Opila. The Electrochemical Society Inc., Pennington, NJ, 2001.
17. L. Kaufman and E. Clougherty, "Investigation of Boride Compounds for Very High Temperature Applications"; Report RTD-TDR-63-4096, Part 1, AFML, WPAFB, OH, Dec. 1963.
18. I. Talmy, J. Zaykoski, and M. Opeka Unpublished data
19. W. Vogel, Glass Chemistry, 2nd edition, Springer-Verlag, New York, (1994).
20. F. P. Glasser, I. Warshaw, and R. Roy, "Liquid Immiscibility in Silicate Systems," Phys. Chem. Glasses, l, 39-45 (1960).
21. B. G. Varshal, "A Structural Model for Immiscibility in Silicate Glass-Forming Melts," Glass Phys. Chem., 19 [2] 107-10 (1993).
22. B. G. Varshal (ed.), Two-Phase Glasses: Structure, Properties, and Applications. AN SSSR, Nauka, Leningrad, 11-33, (1991).
23. A. Bellosi and F. Monteverde, "Ultra-Refractory Ceramics: The Use of Sintering Aids to Obtain Microstructure Control and Properties Improvement," Key Eng. Mater., 264-268 [Part 2] 787-92 (2004).
24. 4 Fiber and Various Ceramics," J. Mater. Sci. Lett., 19 [13] 1179-83 (2000).
25. P. Shaffer, "An Oxidation Resistant Boride Composition," Ceram. Bull., 41 [2] 96-9 (1962).
26. P. Shaffer, "Oxidation-Resistant Ceramics and Method of Manufacturing Same"; U.S. Patent 3, 189, 477 (1965)
27. 2 System with Oxygen," Sov. Powder Metal Metal Ceram., 21 [6] 471-3 (1982).
28. 2"; pp. 127-30 in Vysokotemp. Boridy Silitsidy, Edited by T. Ya. Kosolapova. Naykova Dumka, Kiev, USSR, 1978.
29. H. Pastor and R. Meyer, "An Investigation of the Effect of Additions of Metal Silicides on Titanium and Zirconium Borides from the Point of View of their Sintering Behavior and their Resistance to Oxidation at High Temperatures," Rev. Int. Hautes Temp. Refract., 11 [1] 41-54 (1974).
30. 2-Based Ultra-High Temperature Ceramics: Effect of Ta Additions," J. Mater. Sci., 39 [19] 5969-77 (2004).
31. 3," J. Mater. Res., 21 [10] 2593-9 (2006).
32. T. J. Rocket and W. R. Foster, "Phase Relations in the System Boron Oxide-Silica," J. Am. Ceram. Soc., 48 [2] 78 (1965).
33. 2," Inorg. Mater., 25 [10] 1487-9 (1989).
34. C. E. Brukl, "Ternary Phase Equilibrium in Transition Metal-Boron-Carbon-Silicon Systems. Part II. Ternary Systems, Volume X"; AFML-TR-65-2, Part II, Vol. X, Air Force Materials Laboratory, Wright Patterson Air Force Base, Dayton, OH, November 1966.
35. R. Kieffer and F. Benesovsky, "Recent Developments in the Field of Silicides and Borides of High-Melting-Point Transition Metals," Powder Metal., [1/2] 145-71 (1958).
36. E. Parthe and J. T. Norton, "Phase Equilibria in M-X-X0 and M-Al-X Ternary Systems (M5Transition Metal; X, X' = B, C, N, Si) and the Crystal Chemistry of Ternary Compounds," Monatsh. Chem., 91, 1127 (1960).