Abstract
CERAMICS based on silicon nitride and carbide are strong and stable at high temperatures, and are therefore under investigation for the fabrication of motor and turbine parts1–3. But silicon nitride decomposes at about 1,400 °C in vacuum and 1,775 °C in 0.1 MPa nitrogen4,5, limiting the high-temperature range of its technological uses. Here we describe a boron-containing silicon nitride/carbide ceramic that does not degrade at temperatures up to 2,000 °C even in nitrogen-free environments. We synthesize the material in a polymer-to-ceramic transformation6 from a single polymeric polyborosilazane precursor. On heating at 1,000 °C in argon we obtain a ceramic with the composition Si3.0B1.0C4.3N2.0. The ceramic begins to convert to a polycrystalline composite of silicon nitride and carbide (with some non-crystalline boron nitride) at 1,700 °C, a process that is completed (without substantial change in elemental composition) at 2,000 °C.
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References
Mitomo, M. & Tajima, Y. J. Ceram. Soc. Japan 99, 1014–1025 (1991).
Niihara, K. J. Ceram. Soc. Japan 99, 974–982 (1991).
Wakai, F. et al. Nature 344, 421–423 (1990).
Batha, H. D. & Whitney, E. D. J. Am. Ceram. Soc. 56, 365–373 (1973).
Raj, R. J. Am. Ceram. Soc. 76, 2147–2174 (1993).
Riedel, R., Seher, M., Mayer, J. & Szabo, D. V. J. Eur. Ceram. Soc. 15, 703–716 (1995).
Soderquist, J. A., Rivera, I. & Negron, A. J. Org. Chem. 54, 4051–4055 (1989).
Soderquist, J. A. & Lee, S.-J.H. Tetrahedron 44, 4033–4042 (1988).
Riedel, R., Kleebe, H.-J., Schönfelder, H. & Aldinger, F. Nature 374, 526–528 (1995).
Riedel, R., Passing, G., Schönfelder, H. & Brook, R. J. Nature 355, 714–716 (1992).
Takamizawa, M., Kobayashi, T., Hayashida, A. & Takeda, Y. US Patent No. 4604367 (1986).
Baldus, H. P., Wagner, O. & Jansen, M. Mater. Res. Soc. Symp. Proc. 271, 821–826 (1992).
Baldus, H. P., Jansen, M. & Wagner, O. in Silicon Nitride ‘93 (eds Hoffmann, M. J., Becher, P. F. & Petzow, G.) 75–79 (Trans Tech, Aedermannsdorf, 1994).
Baldus, H. P. & Passing, G. Mater. Res. Soc. Symp. Proc. 346, 617–622 (1994).
Baldus, H. P., Passing, G., Sporn, D. & Thierauf, A. in High-Temperature Ceramic-Matrix Composites II: Manufacturing and Materials Development (eds Evans, A. G. & Naslain, R.) 75–84 (Ceramic Trans. 58, Am. Ceramic Soc., Westerville, Ohio, 1995).
Löffelholz, J. & Jansen, M. Adv. Mater. 7, 289–292 (1995).
Funayama, O., Kato, T., Tashiro, Y. & Isodo, T. J. Am. Ceram. Soc. 76, 717–723 (1993).
Riedel, R., Kienzle, A., Petzow, G., Brück, M. & Vaahs, T. German Patent DE 4320784 Al (1994).
Becher, P. F. J. Am. Ceram. Soc. 74, 255–269 (1991).
Funayama, O., Nakahara, H., Tezuka, A., Ishii, T. & Isoda, T. J. Mat. Sci. 29, 2238–2244 (1994).
Mayer, J., Szabo, D. V., Rühle, M., Seher, M. & Riedel, R. J. Eur. Ceram. Soc. 15, 717–727 (1995).
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Riedel, R., Kienzle, A., Dressler, W. et al. A silicoboron carbonitride ceramic stable to 2,000°C. Nature 382, 796–798 (1996). https://doi.org/10.1038/382796a0
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DOI: https://doi.org/10.1038/382796a0
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