设计并采用类似搪瓷涂覆的工艺制备了羟基磷灰石-Ti6Al4V复合材料.使用XRD、SEM对复合材料的相组成和显微结构进行分析和表征,在模拟体液中观察了获得材料的生物相容性.结果表明;在涂层中,羟基磷灰石粒子均匀地分散在玻璃基体中,它们保持原有的晶格结构,未发生相分解等现象.烧成温度对中间层玻璃涂层的显微结构有着较为明显的影响.中间层玻璃涂层与钛合金的结合强度或不小于29.73MPa,远高于等离子喷涂,达到使用要求.在模拟体液中浸泡一段时间后,XPS分析表明复合材料表面有新生羟基磷灰石粒子析出,表明复合涂层有优良的生物相容性.
The HAP dispersing bioglass-Ti6Al4V composite was made by the enameling method. Since the intermediate layer of bioactive glass has no effect on hydroxyapatite
particles, the particles in the coating remain their apatite structure. The sintering temperature greatly effects the microstructure of as obtained intermediate
layer. The bonding strength between bioglass layer and underlined substrates is not less than 29.73 MPa, much higher than that by plasma spraying. XPS results
show that after the coating being soaked in the simulated body fluid for a certain time, new hydroxyapatite particles will separate
out on the surface of the composite coating, showing the composite coating having a good bioactivity.
参考文献
| [1] | |
| [2] | |
| [3] | |
| [4] | Wang J, Wolke J G C, Zhang X, et al. J. Mater. Sci. Lett., 1995, (15): 333--335. [2] Zyman Z, Weng J, Liu X, et al. Biomaterials, 1993, 14 (3): 225--228. [3] Hench L L, Andersson Orian. Bioactive Glasses. In: "Advanced Series in Ceramics, Vol.1: an Introduction to Bioceramics", Eds. L. L. Hench and June Wilson, 1994,World Scientific Publishing Co. Pte. Ltd., Singapore: 41--62. [4] Sun J, Huang B T, Gu W M. Bioglasses Used for Plasma Spraying. In: "Biomes and Biomaterials", Eds. W. Feng, Y. Han and L. Huang, Elsevier Science Publishers, B. V., 1991. 441--446. [5] Han W, Rybicki E F, Shadley J R. J. Thermal Spray Technology, 1993, 2 (2): 145--150. [6] 王允夫, 丸野重雄. 玻璃与搪瓷, 1990, 18 (3): 6--12. [7] United States Patent number: 5,077,132 Shigeo Maruno, Kani |
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