Sintering Effect on Mechanical Properties of Enamel Derived and Synthetic Hydroxyapatite-Zirconia Composites

Abstract:

Article Preview

Info:

Periodical:

Key Engineering Materials (Volumes 264-268)

Main Theme:

Edited by:

Hasan Mandal and Lütfi Öveçoglu

Pages:

1961-1964

Citation:

Y. Genc et al., "Sintering Effect on Mechanical Properties of Enamel Derived and Synthetic Hydroxyapatite-Zirconia Composites ", Key Engineering Materials, Vols. 264-268, pp. 1961-1964, 2004

Online since:

May 2004

Export:

Price:

$38.00

[1] K. Shimizu, M. Oka, P. Kumar and et al: J. Biomed. Mater. Res. Vol. 27 (1993), p.729.

[2] M.R. Towler and I.R. Gibson: J. Mater. Sci. Lett. Vol. 20 (2001), p.1719.

[3] W. Suchanek, M. Yashima, M. Kakihana and M. Yoshimura: J. Am. Ceram. Soc. Vol. 80 (1997), p.2805.

[4] T. Matsuno, K. Watanabe, K. Ono and M. Koishi: J. Mater. Sci. Lett. Vol. 19 (2000), p.573.

[5] W. Suchanek, M. Yashima, M. Kakihana, and M. Yoshimura: Biomater. Vol. 17(1996), p.1715.

[6] V. V Silva and F.S. Lameires: Mater. Charac. Vol. 45 (2000), p.51.

[7] J.M. Wu and T.S. Yeh: J. Mater. Sci. Vol. 23 (1988), p.3771.

[8] V.V. Silva, F.S. Lameiras and R.Z. Domingues: Composit. Sci. Tech. Vol. 61 (2001), p.301.

[9] X. Miao, A. J, Ruys and B.K. Milthorpe: J. Mater. Sci. Vol. 36 (2001), p.3323.

[10] R.I. Martin and P.W. Brown: J. Mater. Sci.: Mater. in Med. Vol. 6 (1995), p.138.

[11] R.B. Heimann and T.A. Vu: J. Mater. Sci. Letters Vol. 16 (1997), p.437.

[12] R.R. Rao and T.S. Kannan: Mater. Sci. Engineer. Vol. 20 (2002), p.187.

[13] H.W. Kim, Y.J. Noh, Y.H. Koh and et al: Biomater. Vol. 23 (2002), p.4113.

[14] J. Li, L. Hermansson and R. Söremark: J. Mater. Sci.: Mater. in Med. Vol. 4 (1993), p.50.

[15] F.N. Oktar, K. Kesenci, E. Pişkin, Int. J. Artif. Cells, Blood Substitu. Immob. Biotech. 27 (1999), p.367.

[16] G. Göller, F.N. Oktar, H. Demirkıran and E. Demirkesen: Key Eng. Mat. Vol. 240-242 (2003), p.939.

[17] G. Göller, F.N. Oktar, D. Toykan and E.S. Kayalı: Key Eng. Mat. Vol. 240-242 (2003), p.619.

[18] F.N. Oktar and G. Göller, Ceram. Int. Vol. 28 (2002), p.617.

[19] C. Huang, Z. Zhang and Z. Tang, J. Mater. Sci. Lett. Vol. 18 (1999), p.1815.

[20] H. Guo, K.A. Khor, Y.C. Boey and X. Miao: Biomater in press. Summary Due to its brittle character it is already known that HA cannot be used at load carrying areas of the human body as a graft material. Zr has been considered as a toughening material with enormous potential.

[19] These studies indicate that enamel derived HA-Zr can serve as a very promising graft material for load carrying areas. At a very recent study 8 mol % yittria stabilized Zr composition was used to build a durable new composition, which seemed promising for further studies.

[20] .