生物金属材料

  • 网络biomedical metal material
生物金属材料生物金属材料
  1. Ti、Zr基生物医用金属材料的微观结构与性能的研究

    Studies of Microstructures and Mechanical Properties for Ti , Zr-Based Biomedical Alloys

  2. 氮离子注入生物医用金属材料的表面性能研究

    Study on Surface Performance of Biomedical Metallic Materials Implanted by Nitrogen Ion

  3. 新型生物医用金属材料的研究和进展

    Research and Development of New Biomedical Metallic Materials

  4. 生物医用金属材料表面处理是医用材料工作者研究的主要领域。

    Surface modification of biomedical metal materials is one of main research fields for biomedical researchers .

  5. 生物医用金属材料的使用在提高人类生活质量方面发挥了巨大的作用。

    The application of biomedical metals exerts huge effect on promoting living quality of human beings .

  6. 在生物医用金属材料中,目前用于血管支架制作的主要有生物医用不锈钢、钛合金和钴合金。

    The biomedical metallic materials used in the areas of vascular stent mainly contain biomedical stainless steel , titanium and cobalt alloy .

  7. 近几十年来,生物医用金属材料在不断的发展与创新,多种新型材料被开发成功。

    In recent decades , biomedical metallic material is in the continuous development and innovation , and many new materials are developed successfully .

  8. 血管内支架目前主要是采用生物医用金属材料,经过特殊的加工制造手段精制而成的一种专门用于治疗人体血管管腔狭窄或闭塞的管状器件。

    Endocascular stents are usually made of biocompatible metals by special manufacture process and they are used to treat the stricture and occlusion of the vascular lumen .

  9. 与血液接触的生物医用金属材料,其血液相容性是最基本的问题,然而,这些长期与血液接触的医用金属材料其自身抗凝血性能却远未达到临床需求。

    When medical metal biomaterial is contacted with blood , its hemocompatibility is the basic matter . However , the properties of these metal materials which is contacted with blood for longterm is far from the criterion of the clinical use .

  10. 综述了高性能合金钢、铝锂合金、镁合金、高温合金及生物医用金属材料等高性能金属材料的性能特点、研究应用现状和发展前景。

    The properties , current research and applications as well as the future development of some high-property metal materials , such as high property alloy steels , Al-Li alloys , magnesium alloys , superalloys and metallic biomaterials , were reviewed in this paper .

  11. 生物膜对金属材料腐蚀性能影响的研究进展(上)

    Review of Corrosion Influenced by Biofilm on Metallic Materials (ⅰ)

  12. 生物医用多孔金属材料的研究进展

    Development of Porous Metals Used as Biomaterials

  13. 本文综述了生物医用多孔金属材料在制备工艺、力学性能、耐蚀性及生物相容性方面的研究进展。

    The technology and its development trend of hole metallization in printed circuit board ( PCB ) are summarized in this paper .

  14. 生物降解材料和金属材料髓内固定对松质骨骨折愈合作用比较

    Experimental comparison of fracture healing between biodegradable and metal material intramedullary fixation

  15. 可生物降解性医用金属材料的研究进展

    Research Progress in Biodegradable Metallic Materials for Medical Application

  16. 钛合金又以其优异的生物相容性和力学适应性作为目前最常用的生物医用金属材料。

    Titanium and its excellent biocompatibility and mechanical adaptation as the most commonly used biomedical metallic materials .

  17. 钛合金由于其优秀的力学性能、耐蚀性能和生物相容性能而被认为是现在最好的用于生物医用的金属材料。

    Ti-based alloys are currently considered as the most attractive metallic materials for biomedical applications due to their excellent mechanical properties , corrosion resistance , and biocompatibility .