The Improvement of Titanium Reinforced Hydroxyapatite for Biomedical Applications

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Key Engineering Materials (Volumes 240-242)

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Edited by:

Besim Ben-Nissan, Doron Sher, William Walsh

Pages:

619-622

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G. Göller et al., "The Improvement of Titanium Reinforced Hydroxyapatite for Biomedical Applications", Key Engineering Materials, Vols. 240-242, pp. 619-622, 2003

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May 2003

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[2] M. Knepper, S. Moricca and B.K. Milthrope Stability of hydroxyapatite while processing shortfibre reinforced hydroxyapatite ceramics Biomaterials 18 (1997)1523-1529.

DOI: https://doi.org/10.1016/s0142-9612(97)80003-8

[3] V. Salih,G. Georgiou and et al.: Biomater. Vol. 22 (2001), p.2817.

[4] K.E. Tanner, Brisitish Ceramic Transactions 1994 Vol. 93 No. 3 Clinical Applications of Hydroxyapatite Reinforced Materials.

[5] D. F. Williams, Titanium as a metal for implantation, Part 2: biological properties and clinical applications, Department of Dental Sciences, Journal of Medical Engineering and Technology.

[6] www. gaba. com/teeth_care/glossary_a_e. html#35.

[7] F.N. Oktar, K. Kesenci and E. Piskin: Artif. Cell, Blood Sub. and Immob. Biotech. Vol. 27: (1999), p.367.

[8] F.N. Oktar, G. Göller, Sintering Effects on mechanical properties of glass reinforced hydroxyapatite composites, Ceramics International (in press). * Ca2 Ti5 012 O Ca Ti O3 ∆ Ca3(PO4)2.

DOI: https://doi.org/10.1016/s0272-8842(02)00017-2