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HomeKey Engineering MaterialsKey Engineering Materials Vols. 336-338Fabrication of Highly Microstructure Controlled...

Fabrication of Highly Microstructure Controlled Ceramics by Novel Colloidal Processing

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Abstract:

Highly structure controlled ceramics were required for improving their properties. Here, we demonstrate such ceramics fabricated by novel colloidal processing; (i) dense nano-sized zirconia without pressure sintering, (ii) porous ceramics with controlled pore size by hetero-coagulated suspension of ceramics and polymer, and (iii) textured ceramics with feeble magnetic susceptibility by electrophoretic deposition in a high magnetic field.

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High-Performance Ceramics IV

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Periodical:

Key Engineering Materials (Volumes 336-338)

Pages:

2372-2377

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.336-338.2372

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Online since:

April 2007

Authors:

Yoshio Sakka, Tetsuo Uchikoshi, Tohru Suzuki

Keywords:

Colloidal Processing, Nanostructured Ceramic, Porous Ceramics, Zirconia

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© 2007 Trans Tech Publications Ltd. All Rights Reserved

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[1] F. F. Lange: J. Am. Ceram. Soc. Vol. 72 (1989), p.3.

[2] Y. Sakka and K. Hiraga: Nippon Kagaku Kaishi (1999), p.497.

[3] T. Uchikoshi, Y. Sakka and K. Hiraga: J. Electroceram. Vol. 4 Suppl. 1 (1999), p.113.

[4] T. Uchikoshi, Y. Sakka, K. Ozawa and K. Hiraga: J. Mater. Res. Vol. 13 (1998), p.840.

[5] Y. Sakka, K. Ozawa, T. Uchikoshi and K. Hiraga: J. Am. Ceram. Soc. Vol. 84 (2001), p.2129.

[6] Y. Sakka,T. S. Suzuki, K. Ozawa, et al.: J. Ceram. Soc. Jpn. Vol. 109 (2001), p.1004.

[7] O. Vasylkiv and Y. Sakka: J. Am. Ceram. Soc. Vol. 84 (2001), p.2489.

[8] O. Vasylkiv, Y. Sakka, and V. V. Skorokhod: J. Am. Ceram. Soc. Vol. 86 (2003), p.299.

[9] O. Vasylkiv, Y. Sakka, Y. Maeda and V. V. Skorokhod: J. Am. Ceram. Soc. Vol. 88 (2005), p.639.

[10] F. Q. Tang, H. Fudouzi, T. Uchikoshi and Y. Sakka: J. Eur. Ceram. Soc. Vol. 24 (2004), p.341.

[11] Y. Sakka and T. S. Suzuki: J. Ceram. Soc. Jpn. Vol. 113 (2005), p.26.

[12] T. Uchikoshi, T. S. Suzuki, H. Okuyama and Y. Sakka: J. Mater. Res. Vol. 19 (2004), p.1487.

[13] M. J. Readey and D. W. Readey: J. Am. Ceram. Soc. Vol. 69 (1986), p.580.

[14] T. S. Suzuki, Y. Sakka, K. Nakano and K. Hiraga: J. Am. Ceram. Soc. Vol. 84 ( 2001), p.2132.

[15] T. Uchikoshi, Y. Sakka , K. Ozawa and K. Hiraga: J. Eur. Ceram. Soc. Vol. 18 (1998), p.669.

[16] J. R. Seidensticker, M. J. Mayo and K. Osseo-Asare: J. Am. Ceram. Soc. Vol. 76 (1993), p.1844.

[17] O. Vasylkiv and Y. Sakka: J. Ceram. Soc. Japan Vol. 109 (2001), p.500.

[18] Y. Sakka., T. Suzuki, K. Morita, K. Nakano, K. Hiraga: Scripta Mater. Vol. 44 (2001), p. (2075).

[19] O. Vasylkiv, Y. Sakka, and V. V. Skorokhod: Mater. Trans. Vol. 44 (2003), p.2235.

[20] O. Vasylkiv, Y. Sakka, Y. Maeda and V. V. Skorokhod: J. Europ. Ceram. Soc. Vol. 24 (2004), p.469.

[21] F. Q. Tang, H. Fudouzi and Y. Sakka: J. Am. Ceram. Soc. Vol. 86 (2003), p. (2050).

[22] F. Q. Tang, H. Fudouzi, T. Uchikoshi, T. Awane and Y. Sakka: Chem. Lett. Vol. 32 (2003), p.276.

[23] F. Q. Tang, H. Fudouzi, J. Zhang and Y. Sakka: Scripta Mater. Vol. 49 (2003), p.735.

[24] Y. Sakka, F. Q. Tang, H. Fudouzi and T. Uchikoshi: Sci. Technol. Adv. Mater. Vol. 6 (2005) p.915.

[25] T. S. Suzuki, Y. Sakka and K. Kitazawa: Adv. Eng. Mater. Vol. 3 (2001), p.490.

[26] T. S. Suzuki and Y. Sakka: Chem. Lett. (2002), p.1204.

[27] T. S. Suzuki and Y. Sakka: Jpn. J. Appl. Phys. Vol. 41 (2002), p. L1416.

[28] Y. Sakka, T. S. Suzuki, N. Tanabe, et al.: Jpn. J. Appl. Phys. Vol. 41 (2002), p. L1416.

[29] K. Inoue, K. Sassa, Y. Yokogawa, et al.: Mater. Trans. Vol. 44 (2003), p.1133.

[30] T. S. Suzuki and Y. Sakka: Scripta Mater. Vol. 52 (2005), p.583.

[31] S. Li, K. Sassa and S. Asai: J. Am. Ceram. Soc. Vol. 87 (2004), p.1384.

[32] T. Uchikoshi, T. S. Suzuki, H. Okuyama and Y. Sakka: J. Mater. Res. Vol. 18 (2003), p.254.

[33] Y. Sakka, A. Honda, T. S. Suzuki, Y. Moriyoshi: Solid State Ionics Vol. 172 (2004), p.341.

[34] T. Uchikoshi, T. S. Suzuki, H. Okuyama and Y. Sakka: Ceramic Inter. Vol. 30 (2004), p. (1975).