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Advanced ceramic structural materials

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Refractories and Industrial Ceramics Aims and scope

Abstract

Results in research and development of structural ceramics (high-temperature ceramic monolithic and composite materials based on high-melting nitrides, carbides, and oxides (Si3N4, BN, SiC, Al2O3, ZrO2) and wollastonite) are reported from the Tekhnologiya Research and Production Enterprise. Superior properties of the materials are emphasized.

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REFERENCES

  1. “Design and technologies for engineering components from nonmetallic materials. Part 1. Heat-resistant ceramic materials,” in: Reports Submitted to the IX All-Union Conf. Abstracts [in Russian], Obninsk (1984).

  2. “Design and technologies for engineering components from nonmetallic materials. Part 1. Heat-resistant ceramic materials,” in: Reports Submitted to the IX All-Union Conf. Abstracts [in Russian], VNIIMI, Moscow (1986).

  3. A. G. Romashin, V. V. Vikulin, and A. S. Shatalin, “Scientific principles of design and production of parts for engine applications,” in: Progress in Ceramic Gas Turbine Development. Vol. 2. Ceramic Gas Turbine Components Development and Characterization (2003), pp. 229–244.

  4. L. N. Rusanova and L. I. Gorchakova, “Sintering of turbostratic boron nitride powders,” Poroshk. Metall., No. 2, 38–42 (1988).

    Google Scholar 

  5. L. N. Rusanova, “Ceramic boron nitride-based materials,” Ogneupory, No. 12, 13–15 (1988).

  6. V. V. Vikulin, A. I. Dorozhkin, I. V. Ogneva, et al., “Compacted chemically bound silicon nitride and self-reinforced Si3N4-Si composite material,” Ogneupory, No. 9, 29–33 (1989).

  7. V. V. Vikulin, A. I. Dorozhkin, I. V. Ogneva, et al., “Densified chemically fixed silicon nitride and self-reinforced Si3N4-Si composite material,” Refractories (Consultants Bureau, N.Y.), 30(9–10), 558–562 (1990).

    Google Scholar 

  8. V. V. Nikulin and Yu. P. Nikonov, “Self-reinforced composite ceramic of the Si-Si3N4 system, ” in: Silicon Nitride 93: Proceedings of the Int. Conf. on Silicon Nitride-Based Ceramics, Stuttgart, Germany (1993), p. 665.

  9. I. Yu. Kelina, I. I. Tkacheva, A. V. Arakcheev, et al., “Hot-pressed ceramic materials for structural engineering,” Ogneupory, No. 3, 28–30 (1992).

  10. I. I. Tkacheva, “Hot-pressed ceramics from ultradisperse composite powders,” Ogneupory, No. 2, 13–20 (1994).

  11. V. V. Vikulin, I. N. Kurskaya, and T. V. Leshchuk, “Si3N4-and SiC-based structural ceramic materials for operating temperatures above 1400°C,” in: Proceeding, Properties and Applications of Metallic and Ceramic Materials: Proceedings of IRC’92, No. 1 (1992), pp. 327–332.

  12. N. I. Ershova and I. Yu. Kelina, “Multilayer ceramic components from Si3N4 and BN-based material,” Ogneup. Tekh. Keram., No. 5, 6–10 (1997).

    Google Scholar 

  13. N. I. Ershova and I. Yu. Kelina, “High-temperature Si3N4-BN composite,” in: Ceramic Materials and Components for Engines: Mat. 7th Int. Symp., Goslar, Germany (2000), pp. 647–651.

  14. V. V. Vikulin, I. Yu. Kelina, and N. I. Ershova, “Advanced materials for high-temperature friction units,” in: 2nd World Tribology Congr., Vienna (2001), p. 603.

  15. T. F. Baranova and I. L. Shkarupa, “Cementing silicon nitride-based components,” Ogneupory, No. 4, 18–20 (1995).

  16. A. G. Romashin and V. V. Vikulin, “Structural ceramics for engines,” in: Ceramics Today — Tomorrow’s Ceramics: Proceedings of the Int. Symp. on Modern Ceramics Technologies, Italy (1990), pp. 2725–2730.

  17. A. S. Shatalin and A. G. Romashin, “New structural materials based on ceramics and composites with a ceramic matrix. Part 1. Structural ceramic materials,” Perspektivnye Mater., No. 4, 5–16 (2001).

    Google Scholar 

  18. A. G. Romashin and V. V. Vikulin, “Thermally stressed ceramic components for the hot zone of gas-turbine engines,” Ogneup. Tekh. Keram., No. 1, 25–31 (2003).

    Google Scholar 

  19. I. Yu. Kelina, N. I. Ershova, L. A. Pljasunkova, and E. I. Jakovenko, “Advanced hot-pressed ceramics matrix composites (CMC) in the SiCw, SiCf, Cf/Si3N4 system,” in: Ceramic Materials and Composites for Engines: Mat. 7th Int. Symp., Goslar, Germany (2000), pp. 641–646.

  20. I. Yu. Kelina, I. A. Plyasunkova, and I. A. Chevykalova, “High-temperature oxidation of Si3N4/Cf,” in: Ceramics Matrix Composites: 10th International Ceramics Congress and 3rd Forum on New Materials, Florence, Italy (2002), p. 178.

  21. A. S. Shatalin and A. G. Romashin, “New structural materials based on ceramics and composites with a ceramic matrix. Part 2. Composites with ceramic matrix,” Perspektivnye Mater., No. 2, 13–22 (2002).

    Google Scholar 

  22. V. S. Yakushkina, E. A. Korableva, O. P. Djachenko, and V. V. Vikulin, “Zirconia-based ceramics on the way to the production process,” in: Polish Ceramic Bulletin: Processing of the Int. Conf. “Advanced ceramics for third millenium,” Vol. 69, Polish Ceramic Society, Krakow (2002), pp. 75–77.

    Google Scholar 

  23. V. V. Vikulin and S. M. Itkin, “Investigation of the mechanism of unfired quartz ceramics strengthening under hydrothermal treatment,” in: Developments in Processing of Advanced Ceramics: II Fourth Euro-Ceramics, Vol. 2, Italy (1995), pp. 295–300.

  24. V. V. Vikulin, “Influence of additives on the nitriding mechanism and properties of reaction-bonded silicon nitride (RBSN),” in: Ceramic Matrix Composites: 10th Int. Ceramics Congr. and 3rd Forum on New Materials, Florence, Italy, 2002, p. 178.

  25. A. G. Romashin, M. Yu. Rusin, L. N. Rusanova, et al., “Wolla-stonite-based ceramics developed at the Tekhnologiya Research and Production Enterprise,” Novye Ogneupory, No. 1, 43–47 (2004).

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Authors and Affiliations

  1. Tekhnologiya Research and Production Enterprise, Obninsk, Kaluga Region, Russia

    V. V. Vikulin, I. Yu. Kelina, A. S. Shatalin & L. N. Rusanova

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  1. V. V. Vikulin
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  2. I. Yu. Kelina
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  3. A. S. Shatalin
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  4. L. N. Rusanova
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Translated from Novye Ogneupory, No. 10, pp. 9 – 12, October, 2004.

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Vikulin, V.V., Kelina, I.Y., Shatalin, A.S. et al. Advanced ceramic structural materials. Refract Ind Ceram 45, 383–386 (2004). https://doi.org/10.1007/s11148-005-0017-2

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  • DOI: https://doi.org/10.1007/s11148-005-0017-2

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