SYNTHESIS AND PROCESSING

2.03 Synthesis/Processing of Silicon Nitride Ceramics

2.03.8 Summary and Suggested Further Research

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Dixmier, J., Bellissent, R., Bahloul, D., & Goursat, P. (1994). Neutron diffraction study of the amorphous phase structure in silicon carbonitride ceramics obtained by pyrolysis of a polyvinylsilazane.Journal of the European Ceramic Society, 13, 293–298.

Hampshire, S. (2009). Silicon nitride ceramics.Materials Science Forum, 606, 27–41.

Hampshire, S., & Jack, K. H. (1981). The kinetics of densification and phase transformation of nitrogen ceramics.Proceedings of the British Ceramic Society, 31, 37–49.

Hampshire, S., Park, H. K., Thompson, D. P., & Jack, K. H. (1978).a’-Sialon ceramics.Nature, 274, 880–882.

Harrer, W., Danzer, R., & Morrell, R. (2012). Influence of surface defects on the biaxial strength of a silicon nitride ceramic-increase of strength by crack healing.Journal of the European Ceramic Society, 32(1), 27–35.

Herzog, A., Woetting, G., & Vogt, U. F. (2007). Short-fibre-reinforced reaction-bonded silicon nitride (RBSN) by precursor route: processing and properties.

Journal of the European Ceramic Society, 27(12), 3561–3572.

Hirao, K., Ohashi, M., Brito, M. E., & Kanzaki, S. (1995). Processing strategy for producing highly anisotropic silicon nitride.Journal of the American Ceramic Society, 78(6), 1687–1690.

Hyuga, H., Jones, M. I., Hirao, K., & Yamauchi, Y. (2004). Influence of carbonfibre content on the processing and tribological properties of silicon nitride/carbon composites.Journal of the European Ceramic Society, 24, 877–885.

Kleebe, H.-J., Pezzotti, G., & Ziegler, G. (1999). Microstructure and fracture toughness of Si₃N₄ceramics: combined roles of grain morphology and secondary phase chemistry.Journal of the American Ceramic Society, 82(7), 1857–1867.

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Laarz, E., Muerck, A., & Bergstrom, L. (2003). Colloidal processing of silicon nitride.Ceramic Transactions, 142, 3–34.

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Lundberg, R., Pompe, R., Carlsson, R., & Goursat, P. (1990). Fibre reinforced silicon nitride composites.Composites Science and Technology, 37, 165–176.

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Müller, M., Bauer, W., & Knitter, R. (2009). Processing of micro-components made of sintered reaction-bonded silicon nitride (SRBSN), part 1: factors influencing the reaction-bonding process.Ceramics International, 35(7), 2577–2585.

Müller, M., Bauer, W., Knitter, R., & Rögner, J. (2010). Processing of complex-shaped micro parts by reaction-bonding and sintering of silicon nitride.Ceramic Engineering and Science Proceedings, 31(8), 213–222.

Müller, M., Rögner, J., Okolo, B., Bauer, W., & Knitter, R. (2010). Processing of micro-components made of sintered reaction-bonded silicon nitride (SRBSN), part 2: sintering behavior and micro-mechanical properties.Ceramics International, 36(2), 707–717.

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Omatete, O. O., Janney, M. A., & Nunn, S. D. (1997). Gelcasting: from laboratory development toward industrial production.Journal of the European Ceramic Society, 17(2–3), 401–413.

Parr, N. L., Martin, G. F., & May, E. R. W. (1960). Preparation, microstructure, and mechanical properties of silicon nitride. In P. Popper (Ed.),Special ceramics (pp. 102–135). London: Heywood.

Pasto, A. E. (1984). Causes and effects of Fe-bearing inclusions in sintered Si₃N₄.Journal of the American Ceramic Society, 67(9), C-178–C-180.

Pasto, A. E., Neil, J. T., & Quackenbush, C. L. (1984). Microstructural effects influencing strength of sintered silicon nitride. In L. L. Hench, & D. L. Ullrich (Eds.), Ultrastructure processing of ceramics, glasses, and composites(pp. 476–489). Wiley-Interscience.

Pavarajarn, V., Vongthavorn, T., & Praserthdam, P. (2007). Enhancement of direct nitridation of silicon by common metals in silicon nitride processing.

Ceramics International, 33(4), 675–680.

Peng, H., Shen, Z., & Nygren, M. (2005). SPS processing and superplastic deformation of silicon nitride based ceramics.Key Engineering Materials, 287, 146–155.

Petzow, G., & Herrmann, M. (2002). Silicon nitride ceramics. In M. Jansen (Ed.),High performance non-oxide ceramics II(pp. 50–171). Berlin and NY:

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Qi, G., Zhang, C., & Hu, H. (2007). High strength three-dimensional silicafiber reinforced silicon nitride-based composites via polyhydridomethylsilzane py- rolysis.Ceramics International, 33, 891–894.

Ramasamy, S., Tewari, S. N., Lee, K. N., Bhatt, R. T., & Fox, D. S. (2010). Slurry-based multilayer environmental barrier coatings for silicon carbide and silicon nitride ceramics-II. Oxidation resistance.Surface and Coatings Technology, 205, 266–270.

Saigal, A., Kupperman, D. S., Singh, J. P., Singh, D., Richardson, J., & Bhatt, R. T. (1993). Thermal residual strains and stresses in silicon carbide-fiber- reinforced silicon nitride composites.Composites Engineering, 3(11), 1075–1086.

Sajgalik, P., Dusza, J., & Hoffmann, M. J. (1995). Relationship between microstructure, toughening mechanism, and fracture toughness of reinforced silicon nitride ceramics.Journal of the American Ceramic Society, 78(10), 2619–2624.

Samant, A. N., & Dahotre, N. B. (2009). Laser machining of structural ceramics–a review.Journal of the European Ceramic Society, 29, 969–993.

Schwab, S. T., & Page, R. A. (1995). Nanostructure of polymer-derived silicon nitride.Materials Science and Engineering A, 204, 201–204.

Shen, Z., Zhao, Z., Peng, H., & Nygren, M. (2002). Formation of tough interlocking microstructures in silicon nitride ceramics by dynamic ripening.Nature, 417, 266–269.

Shibata, N., Pennycook, S. J., Gosnell, T. R., Painter, G. S., Shelton, W. A., & Becher, P. F. (2004). Observation of rare-earth segregation in silicon nitride ceramics at subnanometre dimensions.Nature, 428, 730–733.

Sreekumar, C., & Earl, D. A. (2009). Mechanical properties of 2.45 GHz microwave sintered Si₃N₄-Y₂O₃-MgO-ZrO₂system.Journal of the European Ceramic Society, 29, 2037–2043.

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Sreekumar, C., & Traver, H. K. (2010). Microwave sintering of beta-sialon-ZrO₂composites.Materials and Design, 31, 3041–3046.

Sun, L., Malshe, A. P., Jiang, W., & McCluskey, W. (2006). Effects of CO₂laser surface processing on fracture behavior of silicon nitride ceramic.Journal of Engineering Materials and Technology, Transactions of the ASME, 128(3), 460–467.

Sun, E. Y., Becher, P. F., Plucknett, K. P., Hsueh, C.-H., Alexander, K. B., Waters, S. B., et al. (1998). Microstructural design of silicon nitride with improved fracture toughness: II, effects of yttria and alumina additives.Journal of the American Ceramic Society, 81(11), 2831–2840.

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Tsuge, S., & Nishida, K. (1978). High strength hot-pressed Si₃N₄with concurrent Y₂O₃and Al₂O₃additions.Bulletin of the American Ceramic Society, 57, 424–426 and 431.

Wang, H.-R., Yang, J.-F., Liu, J.-Q., Yu, F.-L., & Li, Y. (2009). Processing, microstructure and mechanical properties of porous silicon nitride by a slip casting method using petroleum coke as a pore former.Journal of Ceramic Processing Research, 10(6), 823–826.

Westman, A.-K., & Larker, H. T. (1999). Interaction of encapsulation glass and silicon nitride ceramic during HIPing.Journal of the European Ceramic Society, 19, 2739–2746.

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Yang, J.-F., Ohji, T., & Niihara, K. (2000). Influence of yttria-alumina content on sintering behavior and microstructure of silicon nitride ceramics.Journal of the American Ceramic Society, 83(80), 2094–2096.

Yang, J., Yu, J., & Huang, Y. (2011). Recent developments in gelcasting of ceramics.Journal of the European Ceramic Society, 31, 2569–2591.

Yu, J., Wang, H., Zeng, H., & Zhang, J. (2008). Effects of monomer content on physical properties of silicon nitride ceramic green body prepared by gelcasting.

Ceramics International, 35, 1039–1044.

Zhu, X., & Sakka, Y. (2008). Textured silicon nitride: processing and anisotropic properties.Science and Technology of Advanced Materials, 9(3).

Zhu, X., Sakka, Y., Zhou, Y., & Hirao, K. (2007). Processing and properties of sintered reaction-bonded silicon nitride with Y₂O₃-MgSiN₂: effects of Si powder and Li₂O addition.Acta Materialia, 55(16), 5581–5591.

Zhu, X., Uchikoshi, T., & Sakka, Y. (2007). Aqueous processing of textured silicon nitride ceramics by slip casting in a strong magneticfield.Materials Science Forum, 534-6(Part 2), 1009–1012.

Zhu, X., Zhou, Y., Hirao, K., & Lences, Z. (2006). Processing and thermal conductivity of sintered reaction-bonded silicon nitride. I: effect of Si powder characteristics.Journal of the American Ceramic Society, 89(11), 3331–3339.

Zhu, X., Zhou, Y., Hirao, K., & Lences, Z. (2007). Processing and thermal conductivity of sintered reaction-bonded silicon nitride.Journal of the American Ceramic Society, 90(6), 1684–1692.

Ziegler, A., Idrobo, J. C., Cinibulk, M. K., Kisielowski, C., Browning, N. D., & Ritchie, R. O. (2004). Interface structure and atomic bonding characteristic in silicon nitride ceramics.Science Magazine, 306(5702), 1768–1770.

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