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2020 | OriginalPaper | Chapter

5. Gelcasting of Non-oxide Ceramics

Authors : Prof. Jinlong Yang, Prof. Yong Huang

Published in: Novel Colloidal Forming of Ceramics

Publisher: Springer Singapore

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Abstract

In this chapter, the non-oxide powder surface characteristics before and after treatment, and the effect of surface modification on the solids loading of its aqueous suspension were studied. For Si₃N₄ powders, a universal method to prepare highly concentrated suspensions has been established. The results show that Si₃N₄ with high reliability was obtained via processing strategy, for example, using a combination of coating, oxidizing, gelcasting, cold isostatic pressing, and gas-pressure sintering (GPS).

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previous chapter Generation, Development, Inheritance, and Control of the Defects in the Transformation from Suspension to Solid

next chapter Applications of New Colloidal-Forming Processes

Baader, F. H., Graule, T. J., & Gauckler, L. J. (1996). Indian Ceramic, 16, 36.

Barsoum, M., Kangutkar, P., Koczak, M. J. (1991). Nitridation kinetics and thermodynamics of silicon powder compacts. Journal of the American Ceramic Society 74, 1248–1253.CrossRef

Bergstrom, L., & Paugh, R. J. (1989). Interfacial characterization of silicon nitride powders. Journal of the American Ceramic Society 72(1), 103–109.

Bergstrom, L. (1994). US Patent No. 5340532, 23.

Bergstrom, L., & Pugh, R. J. (1989). Journal of the American Ceramic Society, 72, 103.CrossRef

Bleier, A., & Omatete, O. O. (1993). Materials Research Society Symposium Proceedings, 289, 109.CrossRef

Boyer, S. M., & Moulson, A. J. (1978). A mechanism for the nitridation of Fe-contaminated silicon. Journal Materials Science, 13, 511–516.CrossRef

Brow, K., & Pantano, C. G. (1986). Journal of the American Ceramic Society, 69, 314.CrossRef

Busca, G., Lorenzelli, V., Baratoon, M. I., et al. (1986a). FT-IR charaterization of silicon nitride Si₃N₄ and silicon oxynitride Si₂N₂O surfaces. Journal of Molecular Structure, 143, 525–528.CrossRef

Busca, G., Lorenzelli, V., Porcile, G., Baraton, M. I., Quintard, P., & Marchand, R. (1986b). FT-IR Study of the Surface Properties of Silicon Nitride. Materials Chemistry and Physics, 14, 123–140.CrossRef

Carisey, T., Laugier, W. A., & Brandon, D. G. (1995). Journal of the European Ceramic Society, 15, 1.CrossRef

Castanho, M., Fierro, J. L. G., & Moreno, R. (1997a). Journal of the European Ceramic Society, 17, 383.

Castanho, M., Moreno, R., & Fierro, J. L. G. (1997b). Journal of Materials Science, 32, 157.

Coll. Interface Sci., 180, 413–20 (1996).

Cook, R. F., & Clarke, D. R. (1988). Fracture stability, R-curves and strength variability. Acta Metallurgica, 36(3), 555–562.CrossRef

Crimp, M. J., Johnson, R. E., Halloran, J. W., & Feke, D. L. (1986). Colloidal behavior of silicon carbide and silicon nitride. In L. L. Hench (ed.) Science of Ceramic Chemical Process. Wiley, New York, pp. 539-549.

Dai, J.-Q. (2001). The Effects of Surface Characterization of Silicon Nitride Powders on Preparation of Concentrated Suspensions and Properties of Sintered Ceramics, Ph.D. Thesis, Tsinghua University, Beijing, China.

Dai, J. Q., Xie, Z. P., Huang, Y., Ma, L. G., & Zhou, L. J. (1999). Journal of Material Science Letters, 18, 1739.CrossRef

Dai, J.-Q., Huang, Y., Xie, Z.-P., et al. (2001). FTIR study of Si₃N₄ powder. Chinese Journal of Spectroscopy Laboratory, 18(1), 78–83. (In Chinese).

Ezis, A. (1947). The fabrication and properties of slip-cast silicon nitride. In J. H. Burke, A. E. Gorum and R. N. Katz (eds.) Ceramics for high performance applications, Brook Hill, Chestnut Hill, MA, pp. 207–222.

Ezis, A. (1974). The fabrication and properties of slip-cast silicon nitride. In J. H. Burke, A. E. Gorum, & R. N. Katz (eds.) pp. 207–220 in ceramics for high performance applications. Brook Hill, Chestnut Hill, MA.

Fagerholm, H., Johansson, L., & Rosenholm, J. B. (1994). A Surface Study on Adsorption of Lignosulphonate on Mixed Si3N4–Y2O3 Powder Dispersions. Journal of the European Ceramic Society, 14, 403–409.CrossRef

Fagerholm, H., Johansson, L. S., Graeffe, M., & Rosenholm, J. B. (1996). Surface charge and viscosity of mixed Si₃N₄–Y₂O₃ suspensions containing lignosulphonate. Journal of the European Ceramic Society, 16, 671–678.CrossRef

Fang, Y., Yu, F., & White, K. W. (2000). Microstructural influence on the R-curve behavior of a 70%Si₃N₄–30% barium aluminum silicate self-reinforced composite. Journal Materials Science, 35(11), 2695–2699.CrossRef

Garg, A. K., & De Jonghe, L. C. (1990). Microencapsulation of Silicon Nitride Particles with Yttria and Yttria-Alumina Precursors. Journal of Materials Research, 5(1), 136–142.CrossRef

Giridhar, R. V., & Rose, K. (1998). Conditions for thermal nitridation of Si in _N2-O2 mixtures. ECS Journal of Solid State Science and Technology, 135(111), 2803–2807.

Graule, T. J., Gauckler, L. J., & Baader, F. H. (1996). Indian Ceramic, 16, 31.

Greil, P. (1989a). Materials Science and Engineering A, 109, 27.CrossRef

Greil, P. (1989b). Processing of silicon nitride ceramics. Materials Science and Engineering 109, 27–35 (1989).CrossRef

Greil, P., Nitzsche, R., Friedrich, H., & Hermel, W. (1991). Journal of the European Ceramic Society, 7, 353.CrossRef

Hackley, V. A., & Malghan, S. G. (1994). The surface chemistry of silicon nitride powder in the presence of dissolved ions. Journal Materials Science, 29, 4420–4430.CrossRef

Hackley, V. A., Wang, P. S., & Malghan, S. G. (1993). Effects of soxhlet extraction on the surface oxide layer of silicon nitride powders. Materials Chemistry and Physics, 36, 112–118.CrossRef

Hackly, V. A., Paik, U., Kim, B. H., & Malghan, S. G. (1997). Aqueous processing of sintered reaction-bonded silicon carbide: 1, dispersion of silicon powder. Journal of the American Ceramic Society, 80(8), 1781–1788.

Harame, D. L. (1984). Integrated Circuit Chemical Sensors, Ph.D. Thesis. Stanford University, Stanford, CA.

Huang, Y., Ma, L. G., Yang, J. L., Xie, Z. P., & Xu, X. L. (2000). Surface oxidation to improve water-based gelcasting of silicon nirtride. Journal Materials Science, 35, 3519–3524.CrossRef

Huang, Y., Zhou, L. J., Tang, Q., Xie, Z. P., & Yang, J. L. (2001). Water-based gelcasting of surface coated silicon nitride powder. Journal of the American Ceramic Society, 83(4), 701–707.CrossRef

James, R. O., & Parks, G. A. (1980). Surface and colloid science. vol. 2, edited by E. Matijevic (Wiley Interscience, New York, 1980).

Janney, A. (1990-1-16). US Patent no. 4894194.

Janney, M. A., & Omatete, O. O., US Patent no. 5145908.

Janney, M. A., & Omatete, O. O. (1991-7-2). US Patent no. 528362.

Janney, M. A., et al. (1991). Journal of the American Ceramic Society, 81, 581.CrossRef

Jennings, H. M. (1983). Review on reaction between silicon and nitrogen, Part 1 Mechanisms. Journal Materials Science, 18, 951–967.CrossRef

Jennings, H.M., Dalgleish, B.J., & Pratt, P.L. (1988). Reaction between silicon and nitrogen. Part 2 Microstructure. Journal of Materials Science, 23, 2573–2583.

Joshi, R. N., & Ronald, R. A. (1994). metallorganic surfactants as sintering aids for silicon nitride in an aqueous medium. Journal of the American Ceramic Society, 77(11), 2926–2934.CrossRef

Kim, J. S., Schubert, H., & Petzow, G. (1997). Sintering of Si₃N₄ with Y₂O₃ and Al₂O₃ added by coprecipitation. Journal of the European Ceramic Society, 5, 311–319.CrossRef

Kitahara, A., & Watanab, A. (1992). Electric phenomena of interface (in Chin.). Peking University Press, Beijing, China.

Kitahara, A., & Watanabe, A. (1992). Electric phenomena of interface (Peking University Press, Beijing) p. 49.

Kitahara, A., & Watanabe, A. (1992). (Peking University Press, Beijing) p. 49.

Kulig, M., & Greil, P. (1991). Surface chemistry and suspension stability of oxide-nitride powder mixtures. Journal Materials Science, 26, 216–224.CrossRef

Laarz, E., Lenninger, G., & Bergstrom, L. (1997). Aqueous silicon nitride suspensions: Effect of surface treatment on the rheological and electrokinetic properties. Key Engineering Materials, 132–36, 285–288.CrossRef

Levine, S., & Smith, A. L. (1971). Discussions of the Faraday Society, 52, 290.CrossRef

Levine, S., Neale, G., & Epstien, J. (1996). Journal of Colloid and Interface Science, 57, 424.CrossRef

Malghan, S. G. (1992). Dispersion of Si3N4 powders: Surface chemistry interactions in aqueous media. Colloids and Surfaces, 62, 87–99.CrossRef

Messing, G. L., Mazdiyasni, K. S., McCauley, J. W., & Haber, R. A. (eds.) (1987). Ceramic powder science. American Ceramic Society, Westerville, OH.

Mezzasalma, S., & Baldovino, D. (1996). Journal of Colloid and Interface Science, 180, 413.CrossRef

Mezzasalma, S., & Baldovino, D., Characterization of silicon nitride surface in water and acid environment: a general approach to the colloidal suspensions. Journal.

Moulson, A. J. (1979). Review, reaction-bonded silicon-nitride: its formation and properties. Journal Materials Science, 14, 1017–1051.CrossRef

Natansohn, S., & Pasto, A. E. (1991). Improved processing methods for silicon nitride ceramics. American Society of Mechanical Engineers, Paper No. 91-GT-316.

Natansohn, S., Pasto, A. E., & Rourke, W. J. (1993). Effect of powder surface modifications on the properties of silicon nitride ceramics. Journal of the American Ceramic Society, 76(9), 2273–2284.CrossRef

Ninghuai Zhou, S. I. (1980). Chemical data. Beijing: Higher Education Press.

Nilsen, K., Danforth, S. C., & Wautier, H., Dispersion of laser-synthesized si₃n₄ powder in nonaqueous systems, pp. 537–47 in Advances in Ceramics.

Nilsen, K., & Danforth, S. C., Dispersion of laser-synthesized Si₃N₄ powder in nonaqueous systerms. In Advances in ceramics, vol. 21: Ceramic Powder Science, pp. 537–547.

Of Silicon Nitride Prepared for Extrusion. (1996). Journal of the European Ceramic Society, 16, 1127–32.CrossRef

Omatate, O. O., Strehlow, R. A., Armstrong, B. L. (1991). Forming of silicon nitride by gelcasting. In Proceedings of the Annual Automotive Technology Development Contractors’ Meeting, Society of Automotive Engineers, Warrendale, PA, pp. 245–251.

Omatete, O. O., Janney, M. A., & Streklow, R. A. (1991). American Ceramic Bulletin, 70, 1641.

Omatete, O. O., Janney, M. A., & Nunn, S. D. (1997). Gelcasting: From laboratory development toward industrial production. Journal of the European Ceramic Society, 17, 407–413.CrossRef

Peuckert, M., & Greil, P. (1987). Oxygen distribution in silicon nitride powders. Journal Materials Science, 22, 3717.CrossRef

Popper, P., & Ruddlesden, S. N. (1960). The Preparation, Properties, and Structure of Silicon Nitride. Transactions and journal of the British Ceramic Society, 60, 603–623.

Prabhakaran, K., & Pavithran, C. (2000). Gelcasting of alumina from acidic aqueous medium using acrylic acid. Journal of the European Ceramic Society, 20, 1115–1119.CrossRef

Rahaman, M. N., Boiteux, Y., & De Jonghe, L. C. (1986). Surface characterization of silicon nitride and silicon carbide powders. American Ceramic Society Bulletin, 65(8), 1171.

Raider, S. I., Flitsch, R., Aboaf, J. A., & Pliskin, W. A. (1976). Surface oxidation of silicon nitride films. Journal of the Electrochemical Society, 123, 560–565.CrossRef

Ramis, G., Busca, G., Lorenzelli, V., Baraton, M. I., Merle-Mejean, T., & Quintard, P. (1989). FT-IR characterization of high surface area silicon nitride and carbide, pp. 173–84 In L. C. Dufour, C. Monty, and G. Petot-Ervas (eds.) Surfaces and interfaces of ceramic materials. Kluwer, Dordrecht, The Netherlands.

Ramis, G., Busca, G., & Lorenzelli, V. et al. (1989). FT-IR characterization of high surface area silicon nitride and carbide. In L. C. Dufour, C. Monty and G. Petot-Ervas (eds.) Surfaces and interfaces of ceramic materials. Kluwer Academic, Dordrecht, The Netherlands, pp. 173–184.

Rolf, W., Gabriele, S. (1997). Key Engineering Materials, 132–136, 374, Part 1 22–26.

Sanchez, R. T., Garcia, A. B., & Cesio, A. M. (1996). Ibid,16, 1127.

Schwelm, M., Kaiser, G., Schulz, W., Schubert, H., & Petzow, G. (1993). The effect of alcohol treatment on the rheological of Si3N4. Journal of the European Ceramic Society, 11, 283–289.CrossRef

Sheldon, B. W., & Haggerty, S. (1988). The nitridation of high purity, laser–synthesised silicon powder to form reaction bonded silicon nitride. Ceramic Engineering and Science Proceedings, 9(7–8), 1061–1072.CrossRef

Shih, W. H., Kisailus, D., & Shih, W. Y. (1996). Rheology and consolidation of colloidal alumina-coated silicon nitride suspensions. Journal of the American Ceramic Society, 79(5), 1155–1162.CrossRef

Stadelmann, H., Petzow, G., & Greil, P. (1989). Effects of surfaces purification on the properties of aqueous silicon nitride suspensions. Journal of the European Ceramic Society, 5, 155–163.CrossRef

Sun, J., Gao, L., Guo, J. K., & Yan, D. S. (1996). Acta Metallurgica Sinica, A9, 489.

Sanchez, R. T., Garcia, A. B., & Cesio, A. M., Changes in surface characteristics.

Tang, Q., Xie, Z. P., Yang, J. L., & Huang, Y. (1998). Coating of silicon nitride and its colloidal behavior. Journal of Material Science Letters, 17(14), 1239–1241.CrossRef

Tuan, W. H., Lai, M. J., Lin, M. C., Chan, C. C., & Chiu, S. C. (1994). Mechanical performance of alumina as a function of grain size. Materials Chemistry and Physics, 36(3–4), 246–251.CrossRef

Wang, H. T., Liu, X. Q., & Meng, G. Y. (1997). Materials Research Bulletin, 32, 1705.CrossRef

Yang, J. L., Xie, Z. P., & Huang, Y. (1997). Journal of the Chinese Ceramic Society, 25, 679.

Yang, J., Oliveira, F. J., Silva, R. F., & Ferrera, J. M. F. (1999a). Pressureless sinterability of slip cast silicon nitride bodies prepared from coprecipitation-coated powders. Journal of the European Ceramic Society, 19, 433–439.CrossRef

Yang, J. F., Sekino, T., & Niihara, K. (1999b). Effect of grain growth and measurement on fracture toughness of silicon nitride ceramics. Journal Materials Science, 349(22), 5543–5548.CrossRef

Young, A. C., Omatete, O. O., Janney, M. A., & Menchhofer, P. A. (1991a). Gelcasting of Alumina. Journal of the American Ceramic Society, 74(3), 612–618.CrossRef

Young, A. C., Omatete, O. O., Janney, M. A., et al. (1991b). Journal of the American Ceramic Society, 74, 612.CrossRef

Zhou, N. H. (1980a). SI chemical data (p. 123). Beijing, China: Higher Education Press.

Zhou, N. H. (1980). SI chemical data. Higher Education Press, Beijing, p. 123.

Zhou, L. J., Huang, Y., Xie, Z. P., & Cheng, Y. B. (2000). Gas-discharging reactions and their effect on the microstructures of green bodies in gelcasting of non-oxide materials. Materials Letters, 45(8), 51–57.CrossRef

Ziegler, G., Heinrich, J., & Wotting, G. (1987). Review: Relationships between processing, microstrature and properties of dense and reaction-bonded silicon nitride. Journal Materials Science, 22, 3041–3086.CrossRef

Title: Gelcasting of Non-oxide Ceramics
Authors: Prof. Jinlong Yang
Prof. Yong Huang
Publisher: Springer Singapore
Book: Novel Colloidal Forming of Ceramics
Print ISBN: 978-981-15-1871-3

Electronic ISBN: 978-981-15-1872-0

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-1872-0_5

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