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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 821-822Research and Progress in Preparation of Boron...

Research and Progress in Preparation of Boron Nitride Fiber via Organic Precursor

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Abstract:

As a new-type ceramic fiber, boron nitride fiber has excellent performance, such as high thermostability and wave-transparent. Similar to carbon fiber, the preparation of boron nitride fiber mainly employs the conversion method via organic precursor. In this article, some works on the synthesis of organic precursor for boron nitride fiber are summarized. Advantages and disadvantages of these works are also mentioned, and the prospects for research trend of boron nitride fiber are viewed.

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Periodical:

Advanced Materials Research (Volumes 821-822)

Pages:

933-936

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.821-822.933

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Online since:

September 2013

Authors:

Zhao Huan Zhang*, Ying Ying Zhou, Run Jun Sun

Keywords:

Boron Nitride, Fiber Precursor, Polyborazine, Trichloroborazine

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] C.Y. Shen, T. Qiu, H. Rong: J. Chin. Ceram. Soc. Vol. 32 (2004), p.1068.

[2] J. Economy, R.V. Anderson: J. Polym. Sci., Part C. Vol. 19 (1967), p.283.

[3] M.F. Lappert, in: Developments in Inorganic Polymer Chemistry, edited by M.F. Lappert and G.J. Leigh. Publications / Elsevier, Amsterdam, (1962).

[4] P.G. Chantrell, P. Popper: Spec. Ceram. (1965), p.67.

[5] S. Yajima, K. Okamura, T. Matsuzawa, , et. al: Nature, Vol. 279 (1979), p.706.

[6] G. Winter, W. Verbeek, M. Mansmann, U.S. Patent 3, 892, 583 (1975).

[7] I. Taniguchi, S.O. Takeshirodai, K. Yoshiharu, U.S. Patent 4, 731, 437 (1988).

[8] R. Haubner, M. Wilhelm, R. Weissenbacher: Struct. Bond. Vol. 102 (2002), p.1.

[9] B. Toury, S. Duperrier, D. Cornu: Ceram. Trans. Vol. 154 (2003, p.61.

[10] D. Cornu, S. Bernard, S. Duperrier: J. Eur. Ceram. Soc. Vol. 25 (2005), p.112.

[11] N. Venkatasubramanian, W.P. Bruce, A. Desai: J. Non-Cryst. Solids. Vol. 130 (1991), p.144.

[12] G.S. Larry, T.L. Anne, U.S. Patent 5, 489, 707 (1996).

[13] A. Stock, E.B. Pohiand: Chem. Ber. B. Vol. 59 (1926), p.2215.

[14] T. Wideman, E. Cortez, E.E. Remsen: Chem. Mater. Vol. 10 (1998), p.412.

[15] P.J. Fazen, J.S. Beck, A.T. Lynch: Chem. Mater. Vol. 2 (1990), p.96.

[16] T. Wideman, P.J. Fazen, K. l. Su: Appl. Organomet. Chem. Vol. 12 (1998), p.681.

[17] T. Wideman, G. Sneddon: Chem. Mater. Vol. 8 (1996), p.3.

[18] Y.M. Cao, S.T. Li, K.Q. Han: Synth. Fiber Chin. Vol. 1 (2009), p.32.

[19] C. Deng, Y.C. Song, Y.D. Wang: Act. Chim. Sin. Vol. 68 (2010), p.1217.

[20] C.Y. Shen, T. Qiu, H. Rong: J. Chin. Ceram. Soc. Vol. 32 (2004), p.1068.

[21] C. Deng: J. Synth. Chem. Vol. 17 (2009), p.660.

[22] Y.P. Lei: Chem. J. Chin. Univ. Vol. 31 (2010), p.623.