Combustion synthesis of α–Si3N4 whiskers

Yong-Ge Cao; Chang-Chun Ge; Zhang-Jian Zhou; Jiang-Tao Li

doi:10.1557/JMR.1999.0117

Abstract

α–Si3N4 whiskers were fabricated first through combustion synthesis (CS) technology. The as-synthesized crystals with [001] as the elongated axis contain a large amount of linear defects including (a + b)-type, (a + b + c)-type, and c-type of dislocations. The growth of α–Si3N4 whiskers is mainly controlled by vapor-condensation (VC) mechanism. Special additive plays an important role in promoting the growth of α–Si3N4 whiskers and suppressing the phase transformation of α–Si3N4 to β–Si3N4.

References

REFERENCES

1.Wang, M-J. and Wada, H., J. Mater. Sci. 25, 1690–1697 (1990).CrossRef Google Scholar

2.Gopalakrishnan, P. S. and Lakshminarasimhan, P. S., J. Mater. Sci. Lett. 12, 1422–1424 (1993).CrossRef Google Scholar

3.Mizuhara, Y., Noguchi, M., Ishihara, T., and Takita, Y., J. Am. Ceram. Soc. 78 (1), 109–113 (1995).CrossRef Google Scholar

4.Ge, C-G., Xia, Y-L., and Xie, J-G., 4th Int. Symp. Ceram. Mater. Compon. Eng., Japan (1991), pp. 617–623.Google Scholar

5.Rodriguez, M. A., Makhonin, N. S., et al., Adv. Mater. 7 (8), 745–747 (1995).CrossRef Google Scholar

6.Jennings, H. R., J. Mater. Sci. 18, 951–967 (1983).CrossRef Google Scholar

7.Pigeon, R. G. and Varma, A., J. Mater. Sci. Lett. 11, 1370–1372 (1992).CrossRef Google Scholar

8.Wang, C-M., J. Mater. Sci. 31, 5281–5298 (1996).CrossRef Google Scholar

9.Evans, A. G. and Sharp, J. V., J. Mater. Sci. 6, 1279–1302 (1971).CrossRef Google Scholar

10.Xu, Y. D., Zhang, L. T., and Zhang, Z., J. Mater. Comp. 12 (1), 43–49 (1995).Google Scholar

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Chen, Kexin Jin, Haibo Oliveira, M. Zhou, Heping and Ferreira, J. M. F. 2001. Microstructure and formation mechanism of combustion-synthesized rodlike Ca α-sialon crystals. Journal of Materials Research, Vol. 16, Issue. 7, p. 1928.

Zhang, Yingjiu Wang, Nanlin He, Rongrui Liu, Jun Zhang, Xiaozhong and Zhu, Jing 2001. A simple method to synthesize Si3N4 and SiO2 nanowires from Si or Si/SiO2 mixture. Journal of Crystal Growth, Vol. 233, Issue. 4, p. 803.

Cui, H. and Stoner, B. R. 2001. Nucleation and growth of silicon nitride nanoneedles using microwave plasma heating. Journal of Materials Research, Vol. 16, Issue. 11, p. 3111.

De Pablos, Angel Bermudo, Joaquin and Osendi, Maria Isabel 2001. Microstructure and Mechanical Properties of Silicon Nitride Materials Fabricated from SHS Powders. Journal of the American Ceramic Society, Vol. 84, Issue. 5, p. 1033.

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Cano, I.G. Pérez Baelo, S. Rodrı́guez, M.A. and de Aza, S. 2001. Self-propagating high temperature-synthesis of Si3N4: role of ammonium salt addition. Journal of the European Ceramic Society, Vol. 21, Issue. 3, p. 291.

Chen, L. C. Chen, K. H. and Chen, C.-C. 2003. Nanowires and Nanobelts. p. 257.

Rath, Chandana Pinyol, A. Farjas, J. Roura, P. and Bertran, E. 2003. Si-N nanowire formation from Silicon nano and microparticles.. MRS Proceedings, Vol. 789, Issue. ,

2004. Preparation of α-Si3N4Powder, in Reaction System Containing Molten Salt, by SHS (Part 3. Reaction Mechanism). Journal of the Korean Ceramic Society, Vol. 41, Issue. 12, p. 907.

Liu, Guanghua Chen, Kexin Zhou, Heping Ning, Xiaoshan and Ferreira, J.M.F. 2005. Effect of diluents and NH4F additive on the combustion synthesis of Yb α-SiAlON. Journal of the European Ceramic Society, Vol. 25, Issue. 14, p. 3361.

Xie, T. Wu, Y. C. Cai, W. P. and Zhang, L. D. 2005. High purity alpha silicon nitride nanowires – synthesis and dielectric properties. physica status solidi (a), Vol. 202, Issue. 10, p. 1919.

Lin, Feng-Huei Hsu, Chung-King Tang, Tzu-Piao Lee, Jinn-Shing Lin, Jia-Yu and Kang, Pei-Leun 2005. A study of silicon nitride nanotube synthesis at relative low temperature by thermal-heating chemical-vapor deposition method. Materials Chemistry and Physics, Vol. 93, Issue. 1, p. 10.

Farjas, J. Rath, Chandana Pinyol, A. Roura, P. and Bertran, E. 2005. Si 3 N 4 single-crystal nanowires grown from silicon micro- and nanoparticles near the threshold of passive oxidation. Applied Physics Letters, Vol. 87, Issue. 19,

Cano, Irene G. and Rodríguez, Miguel A. 2006. Synthesis and Sintering of Si3N4Obtained by the SHS Process. Industrial & Engineering Chemistry Research, Vol. 45, Issue. 4, p. 1277.

Farjas, J. Pinyol, A. Rath, Chandana Roura, P. and Bertran, E. 2006. Kinetic study of the oxide‐assisted catalyst‐free synthesis of silicon nitride nanowires. physica status solidi (a), Vol. 203, Issue. 6, p. 1307.

Pradeilles, N. Record, M.C. and Marin-Ayral, R.M. 2006. A modified SHS method for Si2N2O elaboration. Journal of the European Ceramic Society, Vol. 26, Issue. 13, p. 2489.

Liu, Guanghua Chen, Kexin Zhou, Heping Ning, Xiaoshan Pereira, C. and Ferreira, J. M. F. 2006. Fabrication of yttrium-stabilized α-SiAlON powders with rod-like crystals by combustion synthesis. Journal of Materials Science, Vol. 41, Issue. 18, p. 6062.

Liu, Guanghua Chen, Kexin Zhou, Heping Ren, Kegang Li, Jiangtao Pereira, C. and Ferreira, J.M.F. 2006. Formation of β-SiAlON micropalings consisting of nanorods during combustion synthesis. Scripta Materialia, Vol. 55, Issue. 10, p. 935.

Ge, Chang Chun Shen, Wei Ping and Wang, Fei 2007. Development of SHS-Si3N4 in LSCPM. Key Engineering Materials, Vol. 280-283, Issue. , p. 1191.

Li, Wen Kui Xiang, Jun Huai and Zhang, Bao Lin 2007. Preparation of Porous Si3N4 Based Ceramics by Combustion Synthesis. Key Engineering Materials, Vol. 336-338, Issue. , p. 1087.

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Combustion synthesis of α–Si3N4 whiskers

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Combustion synthesis of α–Si3N4 whiskers

Abstract

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References

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