Research Article
Year 2010,
Volume: 2 Issue: 2, 48 - 51, 15.06.2010
Abstract
Zirkonya ilave edilmiş hidroksiapatitler çöktürme yöntemi ile üretilmiş ve 1100ºC ve 1300ºC’lerde 1 saat havada sinterlenmişlerdir. Zirkonya ilave edilmiş hidroksiapatitlerde 3- kalsiyum fosfat gibi ikincil fazlar oluşmuştur. Ayrıca, zirkonya eklenmiş hidroksiapatitlerin kafes parametrelerindeki farklılıkların sebebi, hegzagonal kristal yapısına ilave edilmiş olan bazı Zr4+ iyonlarıdır. Saf hidroksiapatitin teorik yoğunluğuna ulaşması için sinterleme sıcaklığı olarak 1100 ºC yeterli olurken, zirkonya ilave edilmiş hidroksiapatitlerde, yoğun malzeme üretimi için 1100 ºC’den yüksek sinterleme sıcaklıkları gerektiği belirlenmiştir.
References
- [1] Ji, H., Marquis, P.M., "Sintering behavior of hydroxyapatite reinforced with 20 wt % Al2O3” Journal of Materials Science 28, 1941-1945, (1993). [2] Matsuno, T., Watanabe, K., Ono, K., Koishi, M., “Preparation of laminated hydroxyapatite / zirconia sintered composite with the gradient [3] Basar, B., Evis, Z., “Structural investigation of nano hydroxyapatite doped with Y3+ and F- ions” Materials Science and Technology, 25, 794-798, 2009 [4] Kijkowska, R., Lin, S., LeGeros, R. Z., “Physico-chemical and thermal properties of chlor-, fluor-, and hydroxyapatites”. editörler: Brown, S., Clarke, I., ve Williams, P., Bioceramics, Trans Tech Publications, İsviçre, 14, 31-34., 2002. [5] Kim, H. W., Noh, Y. J., Koh, Y. H., Kim, H. E., Kim, H. M., “Effect of CaF2 on densification and properties of hydroxyapatite-zirconia composites for biomedical applications” Biomaterials, 23, 4113-4121, 2002. [6] Li, J., Liao, H., Hermansson, L. “Sintering of partially-stabilized zirconia and partially-stabilized zirconia - hydroxyapatite composites by hot isostatic pressing and pressureless sintering” Biomaterials, 17, 1787- 1790, 1996. [7] Takagi, M., Mochida, M., Uchida, N., Saito, K., Uematsu, K. “Filter cake forming and hot isostatic pressing for TZP-dispersed hydroxyapatite composite” Journal of Materials Science: Materials in Medicine, 3, 199- 203, 1992. [8] Rao, R.R., Kannan, T.S., “Synthesis and sintering of hydroxyapatite - zirconia composites” Materials Science and Engineering C, 20, 187- 193, 2002. [9] Heimann, R.B., Vu, T.A., “Effect of CaO on thermal decomposition during sintering of composite hydroxyapatite - zirconia mixtures for monolithic bioceramic implants” Journal of Materials Science Letters, 16, 437-439, 1997. [10] Ahn, E.S., Gleason, N.J., Nakahira, A., Ying, J.Y. “Nanostructure processing of hydroxyapatite-based bioceramics” Nano Letters, 1-3, 149-153, 2001. [11] Wu, J., Yeh, T. “Sintering of hydroxyapatite - zirconia composite materials” Journal of Materials Science, 23, 3771-3777, 1988. [12] Ioku, K., Yoshimura, M., Somiya, S., “Microstructure and mechanical properties of hydroxyapatite ceramics with zirconia dispersion prepared by post-sintering” Biomaterials, 11, 57-61, 1990. [13] Chang, E., Chang, W.J., Wang, B.C., Yang, C.Y. “Plasma spraying of zirconia- reinforced hydroxyapatite composite coatings on titanium. Journal of Materials Science: Materials in Medicine, 8, 193-200, 1997. [14] Jarcho, M., Bolen, C.H., Thomas, M.B., Babock, J., Kay, J.F., Doremus, R.H., “Hydroxylapatite synthesis and characterization in dense polycrystalline form” Journal of Materials Science, 11, 2027-2035, 1976. [15] Evis, Z., “Reactions in hydroxylapatite-zirconia composites” Ceramics International, 33, 987-991, 2007. [16] Cullity, B.D. “Elements of x-ray diffraction”, 2. baskı, Addison-Wesley, Reading, MA, Bölüm 14-10, 1978.
Year 2010,
Volume: 2 Issue: 2, 48 - 51, 15.06.2010
Abstract
Zirconia added hydroxyapatites were synthesized by a precipitation method and sintered in air at 1100ºC ve 1300ºC for 1 hour. Secondary phases such as tri-calcium phosphates were formed in zirconia added hydroxyapatites. Moreover, lattice parameters of zirconia added hydroxyapatites were changed because of the presence of Zr4+ ions in the crystal structure. Although density of pure hydroxyapatite can reach to the theoretical density after the sintering at 1100 ºC, zirconia added hydroxyapatites should be sintered above 1100 ºC to obtain high densities.
References
- [1] Ji, H., Marquis, P.M., "Sintering behavior of hydroxyapatite reinforced with 20 wt % Al2O3” Journal of Materials Science 28, 1941-1945, (1993). [2] Matsuno, T., Watanabe, K., Ono, K., Koishi, M., “Preparation of laminated hydroxyapatite / zirconia sintered composite with the gradient [3] Basar, B., Evis, Z., “Structural investigation of nano hydroxyapatite doped with Y3+ and F- ions” Materials Science and Technology, 25, 794-798, 2009 [4] Kijkowska, R., Lin, S., LeGeros, R. Z., “Physico-chemical and thermal properties of chlor-, fluor-, and hydroxyapatites”. editörler: Brown, S., Clarke, I., ve Williams, P., Bioceramics, Trans Tech Publications, İsviçre, 14, 31-34., 2002. [5] Kim, H. W., Noh, Y. J., Koh, Y. H., Kim, H. E., Kim, H. M., “Effect of CaF2 on densification and properties of hydroxyapatite-zirconia composites for biomedical applications” Biomaterials, 23, 4113-4121, 2002. [6] Li, J., Liao, H., Hermansson, L. “Sintering of partially-stabilized zirconia and partially-stabilized zirconia - hydroxyapatite composites by hot isostatic pressing and pressureless sintering” Biomaterials, 17, 1787- 1790, 1996. [7] Takagi, M., Mochida, M., Uchida, N., Saito, K., Uematsu, K. “Filter cake forming and hot isostatic pressing for TZP-dispersed hydroxyapatite composite” Journal of Materials Science: Materials in Medicine, 3, 199- 203, 1992. [8] Rao, R.R., Kannan, T.S., “Synthesis and sintering of hydroxyapatite - zirconia composites” Materials Science and Engineering C, 20, 187- 193, 2002. [9] Heimann, R.B., Vu, T.A., “Effect of CaO on thermal decomposition during sintering of composite hydroxyapatite - zirconia mixtures for monolithic bioceramic implants” Journal of Materials Science Letters, 16, 437-439, 1997. [10] Ahn, E.S., Gleason, N.J., Nakahira, A., Ying, J.Y. “Nanostructure processing of hydroxyapatite-based bioceramics” Nano Letters, 1-3, 149-153, 2001. [11] Wu, J., Yeh, T. “Sintering of hydroxyapatite - zirconia composite materials” Journal of Materials Science, 23, 3771-3777, 1988. [12] Ioku, K., Yoshimura, M., Somiya, S., “Microstructure and mechanical properties of hydroxyapatite ceramics with zirconia dispersion prepared by post-sintering” Biomaterials, 11, 57-61, 1990. [13] Chang, E., Chang, W.J., Wang, B.C., Yang, C.Y. “Plasma spraying of zirconia- reinforced hydroxyapatite composite coatings on titanium. Journal of Materials Science: Materials in Medicine, 8, 193-200, 1997. [14] Jarcho, M., Bolen, C.H., Thomas, M.B., Babock, J., Kay, J.F., Doremus, R.H., “Hydroxylapatite synthesis and characterization in dense polycrystalline form” Journal of Materials Science, 11, 2027-2035, 1976. [15] Evis, Z., “Reactions in hydroxylapatite-zirconia composites” Ceramics International, 33, 987-991, 2007. [16] Cullity, B.D. “Elements of x-ray diffraction”, 2. baskı, Addison-Wesley, Reading, MA, Bölüm 14-10, 1978.
There are 1 citations in total.
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | June 15, 2010 |
| Submission Date | October 23, 2017 |
| Published in Issue | Year 2010 Volume: 2 Issue: 2 |
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