本实验的目的是进一步检验软磁铁氧体—生物活性陶瓷复合材料的生物相容性。
The purpose of the study is to test the biocompatibility of the soft-magnetic ferrite coated with bioactive ceramics.
探讨了羟基磷灰石生物活性陶瓷的制备工艺对材料结构稳定性及力学性能的影响。
The influence of preparation techniques of hydroxyapatite bioactive ceramics on their structural stability and mechanical property were studied.
本文介绍了惰性生物陶瓷及生物活性陶瓷的成分、性能、进展、应用和发展趋势。
This paper, the components, properties, development, application and developmental tendencies of inert and active bioceramics were introduced.
目的研究骨形成蛋白(BMP)复合生物活性陶瓷(BGC)修复骨缺损时血管的变化。
Aim To study the changes of the microvascular architecture during implantation of bone morphogenetic protein (BMP) combined with bioactive glass ceramics (BGC) in bone defects.
在金属表面涂覆生物活性涂层,可兼顾生物活性陶瓷的骨结合能力与金属材料良好的力学性能。
Coating bioactive ceramics onto a tough biometals integrates the bone-bonding ability of bioactive ceramics and the mechanical properties of the biometals.
结果表明:在相同温度下,混合陶瓷粉对TC4合金基体的浸润性优越于A-W生物活性陶瓷粉;
The results show that the wettability of the mixed ceramic powders on TC4 alloy matrix is better than that of the A-W powders on it at the same temperature.
脉冲激光沉积是近年来出现的一项制备薄膜的新技术,在制备生物活性陶瓷涂层方面显示出独特的优越性。
Pulsed laser deposition is a new technique for producing thin film in the recent years. It shows the unique advantages for the deposition of bioactive ceramic.
金属基生物活性陶瓷涂层由于具有金属和生物活性陶瓷的综合优势,被认为是目前最有前途的一种承重骨替换材料。
Bioactive ceramic-coated metal has the predominance of both metal and ceramics, so it is considered as a kind of the most promising bone replacement material.
介绍了目前生物活性陶瓷和聚合物生物材料的常用复合技术,以及所得复合材料的力学和生物学性能及其临床应用情况。
Some techniques of compounding bioactive ceramics and polymer biomaterials with mechanical and biological properties and the clinical applications of the composites produced are presented.
本文对钛合金表面不同类型涂层的设计进行了综合评述,并对如何提高生物活性陶瓷涂层与基体的界面结合强度提出建议。
The design of different kinds of coatings on titanium alloy was overviewed and some Suggestions on how to improve the bonding strength between bioactive ceramic coating and substrate were made.
针对骨组织的特点,将生物活性陶瓷材料引入聚合物基体形成复合结构,能有效地模拟骨的化学成分,以提高其生物活性;
In particular, incorporation of bioactive ceramics into polymer matrix is assumed to mimic the composition of natural bone extracellular matrix(ECM), thus can enhance cell growth and response.
生物陶瓷的多孔结构与其生物活性密切相关。
The porous structure of bioceramics is closely related to their bioactivity.
采用一种类似氧化沟的反应器,其中利用蜂窝陶瓷为载体形成生物膜替代活性污泥,对城市受污染的河道水体进行缺氧生物修复。
Reactor like oxidation ditch was used for anaerobic bioremediation of urban river water, in which biofilm formed on ceramic honeycomb carrier was used instated of activated sludge.
用中性玻璃与A-W生物活性玻璃陶瓷的混合陶瓷粉涂覆在TC4基体上,经预烧形成过渡层,然后再涂覆A-W陶瓷,经烧结来制备复合试样。
Coated by the mixed powders of neutro-glass and A-W bioactive glass ceramics on TC4 matrix and presintered to form a transition layer, the samples then were coated with A-W powders and sintered again.
结果表明:在SBF中浸泡后,两种玻璃陶瓷表面都能生成含碳酸根的羟基磷灰石(HA)层,显示这两种材料具有良好的生物活性;
The results show that the surfaces of the two materials are covered with a layer of carbonate hydroxyapatite (HA) when soaked in SBF, which indicates they are bioactive.
然而,磷酸钙陶瓷生物相容性和生物活性的机理至今尚未被充分阐明。
However, the mechanism of the bioactivity of calcium phosphate ceramics has not fully elucidated.
结果表明:纳米氧化钛陶瓷复合材料的生物活性、力学性能、蛋白吸附能力随。
The mechanical analysis showed the biomechanical compatibility was also improved by adding BGC into nanophase titania ceramic.
本文报道了测定生物陶瓷的生物活性的FT - IR差谱方法。
A method of studying biological activity of bioceramics by FTIR difference spectra technique was reported.
羟基磷灰石具有良好的生物相容性和生物活性,是较好的生物陶瓷材料。
Hydroxyapatite has excellent biocompatibility and tissue bioactivity and is hydroxyapatite bioceramic materials.
采用陶瓷膜分离及K DF -活性炭吸附联合净水工艺除水中的浊度、微生物,产水浊度小于1。
The combination technology of ceramic membrane separation with KDF-activated carbon adsorption is used for the removal of turbidity and bacteria from raw water.
采用陶瓷膜分离及K DF -活性炭吸附联合净水工艺除水中的浊度、微生物,产水浊度小于1。
The combination technology of ceramic membrane separation with KDF-activated carbon adsorption is used for the removal of turbidity and bacteria from raw water.
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