The porous structure of bioceramics is closely related to their bioactivity.
生物陶瓷的多孔结构与其生物活性密切相关。
A method of studying biological activity of bioceramics by FTIR difference spectra technique was reported.
本文报道了测定生物陶瓷的生物活性的FT - IR差谱方法。
The typical calcium phosphate bioceramics have good biocompatibility and similar compositions to bone minerals.
磷酸钙类陶瓷其成分与骨矿物组成类似,生物相容性好,被视为典型的生物陶瓷。
Objective to observe the clinical effect of porous bioceramics spheres implantation to correct eye socket deformity.
目的观察多孔磷酸钙生物陶瓷义眼台植入术矫治眼窝畸形的临床效果。
The effect of temperature-rising speed on the properties of porous bioceramics was studied and discussed in the paper.
本文研究和探讨了升温速度对所制得多孔生物陶瓷性能的影响。
Porous ceramics may be used as high-temperature filter, catalytic carrier, porous electrode for fuel cell, and bioceramics, etc.
多孔陶瓷可用作高温过滤材料、催化剂载体、燃料电池的多孔电极、生物陶瓷等。
The porous bioceramics had massive macropore by adding in a great deal of forming pore agents, which were active processed carbon.
采用处理过的活性碳作为造孔剂,可以获得大孔径的多孔陶瓷。
However present preparation and shape technologies have difficulties in making porous bioceramics with controllable macrostructure.
现有的制备与成型方法很难制备出可控多孔的生物陶瓷。
This paper, the components, properties, development, application and developmental tendencies of inert and active bioceramics were introduced.
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。
Different kind of materials are compared, the excellent performance of the bioceramics is concluded and its bright future in the artificial hip joint is suggested.
比较了不同材料的性能,提出生物陶瓷材料在人工髋关节材料中的良好的性能和光明前景。
On the base of present preparation and shape technologies, in the paper a new preparation technology to make porous bioceramics with controllable macrostructure was invented.
本文在现有多孔陶瓷制备与成型方法基础上发明了一种新的制备技术。
This article introduced the present status of studies and applications of bone repair materials , such as bioceramics , collagen , deminerized bone matrix, synthetic materials.
本文综述了生物陶瓷、胶原、脱钙骨、合成聚合物等骨修复材料的研究和应用现状。
Thin film materials have been widely used in micro electronics, superconductor, and bioceramics materials. In order to obtain high quality thin films, deposition have attracted more attention.
薄膜材料已在徽电子元件、超导材料、生物材料等方面得到广泛应用,为了得到高质量的薄膜材料,脉冲激光沉积技术受到了广泛的关注。
Thin film materials have been widely used in micro electronics, superconductor, and bioceramics materials. In order to obtain high quality thin films, deposition have attracted more attention.
薄膜材料已在徽电子元件、超导材料、生物材料等方面得到广泛应用,为了得到高质量的薄膜材料,脉冲激光沉积技术受到了广泛的关注。
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