生物复合材料

  • 网络biocomposite;biomedical composites;composite biomaterial
生物复合材料生物复合材料
  1. 表面改性对Cf/HA-PMMA混杂生物复合材料的结构及性能的影响

    Influence of surface modification on microstructure and properties of C_f / HA-PMMA hybrid bio-composites

  2. 工艺因素对C((f))/HA-PMMA生物复合材料弯曲性能的影响

    Influence of Processing Factors on the Flexural Properties of C_ (( f )) / HA-PMMA Bio-Composites

  3. 电化学性能测试及Ni离子溶出测试表明,TiNi/HA生物复合材料具有良好生物相容性。

    Electrochemistry test and Ni ion release test also show good biocompatibility of bio-composite TiNi / HA .

  4. HA/多孔TiO2/Ti生物复合材料的制备和性能研究

    Research on Properties and Preparation of HA / porous TiO_2 / Ti Bio-composites

  5. 结论ZrO梯度复合HA生物复合材料具有良好的生物相容性,适合作为生物骨科材料。

    Conclusion Graded ZrO_2-HA composite bioceramic has good biocompatibility and is suitable for orthopedic biomaterials .

  6. 以磷酸盐缓冲液(PBS)作降解介质,研究PLLA和PLLA/n-HA生物复合材料在PBS中的体外降解性能。

    Phosphate buffered saline ( PBS ) for degradation of the media , research PLLA and PLLA / n-HA in PBS in the bio-composite materials in vitro degradation .

  7. 采用干铺-烧结法制备了一种以二氧化锆(ZrO2)为基体梯度复合羟基磷灰石(HAP)的新型生物复合材料,并对其力学性能、微观结构和生物相容性进行了研究。

    A new bio-composite material , graded zirconia-hydroxyapatite composite Bioceramic , has been prepared by the dry-laying & sintering method , and its mechanical properties , microstructure and biocompatibility have been studied .

  8. PLLA和PLLA/n-HA生物复合材料在PBS中的降解过程说明PLLA/n-HA材料在植入初期降解较小,与纯PLLA材料相比更能保持较好的初始力学强度,为骨组织生长提供良好的支撑作用。

    PLLA and PLLA / n-HA composites in PBS bio-degradation process in the description of PLLA / n-HA material implanted early in the degradation of small , compared with pure PLLA material to keep more good initial mechanical strength for bone Tissue growth to provide a good supporting role .

  9. 以人工椎间盘为例,研究了人工生物复合材料的超弹性变形行为。

    For artificial intervertebral disc , the hyperelastic deformation is studied .

  10. 生物复合材料微孔钛种植牙的实验研究

    Experimental study on the Biomaterial / Porous Titanium composite dental im-plants

  11. HA/YSZ/Ti6Al4V生物复合材料的制备与界面特性

    Interfacial characterization and preparation of HA / YSZ / Ti6Al4V bio-composite material

  12. n-HA/PA系列生物复合材料的结晶行为研究

    Study on the crystal behavior of n-HA / PA series biomaterial composite

  13. 纺织结构生物复合材料人工气管的开发

    Research and Development of Textile Structure Biological Composites Artificial Trachea

  14. 碳纳米管/羟基磷灰石生物复合材料的研究初探

    The primary studying of carbon nano-tube / hybroxyapatite biologic composite

  15. 贝壳是具有很好断裂强度和断裂韧性的自然生物复合材料。

    Bivalve shell has excellent fracture strength and fracture toughness .

  16. 用仿生自组装法制备的新型生物复合材料及表征

    Preparation and Characterization of a Novel Biologic Composite via Biomimetic Self-Assembly Method

  17. 短切碳纤维增强HA/PMMA生物复合材料的制备及性能

    Preparation and property of short carbon fiber reinforced HA / PMMA bio-composites

  18. 生物复合材料的特征及仿生的探讨

    The characteristics of biomaterials and biomimetics of composite materials

  19. n-CHA/HDPE和n-CHA/gHDPE生物复合材料的界面表征

    Characterization on Interface of n-CHA / HDPE and n-CHA / gHDPE Composite for Biomaterials

  20. 磷酸钙骨水泥/聚肽共聚物生物复合材料力学性能及微观结构

    Mechanical Property and Microstructure of Biological Material of Calcium Phosphate Cement / Polypeptide Copolymer

  21. 粉末冶金法制备Ti/HA生物复合材料的体内生物活性

    In vivo Bioactivity of Ti / HA Bio composites Fabricated by Powder Metallurgy Methods

  22. 短纤维增强HA/PMMA生物复合材料

    Bio-composites of Short Fiber Reinforced HA / PMMA

  23. 玻璃纤维增强光固化树脂基齿科生物复合材料的半互穿网络结构界面的形成及力学性能

    Semi-interpenetrating interfacial formation of glass fiber reinforced dental resin bio-composites and its mechanical properties

  24. 蜂窝-柱子芯夹层轻量型仿生物复合材料结构

    Biomimetic light weight composite structure with honeycomb-trabecula

  25. 羟基磷灰石/壳聚糖生物复合材料研究进展

    Progress of hydroxyapatite / chitosan biomedical composite

  26. 本论文围绕这一重要课题,采用粉末冶金法制备了HA/316L生物复合材料;

    Surrounding this important task , HA / 316L biocomposites were fabricated with powder metallurgy in this paper .

  27. 水稻茎秆是典型的生物复合材料,有着优良的力学性能,起到支撑和抗倒伏的作用。

    Rice stem is a perfect kind of composite material with excellent mechanical property such as supporting and lodging resistance .

  28. 可以预见这一生物复合材料是未来生物硬组织损伤后修复或取代的理想材料。

    The bio-composites material can be expected to be the ideal material of repairing injuried biological hard tissue or replace in the future .

  29. 骨作为一种由胶原纤维和羟基磷灰石组成的自然生物复合材料,具有很高的断裂强度和断裂韧性。

    As a kind of natural biological composite material consisting of collagen fibers and hydroxyapatite , bone possesses high fracture strength and fracture toughness .

  30. 在最基本的结构水平上,生物复合材料展示了一种特殊的错列结构。

    At the most elementary structure level , bio-composites exhibit a generic microstructure consisting of staggered mineral bricks wrapped by soft protein in nano-scale .