本发明涉及一种胶原基复合支架材料及其制备方法和用途。
The present invention relates to one kind of composite collagen-base rack material and its preparation and use.
本公司采用的新型复合材料生产的太阳能电池板支架,可完全替代金属制品,具备高强度;
Our company adopted new compound materials to produce the solar power panel support. This is completely instead of metal materials. It is high tension, anti-corrosion.
目的制备并检测CPC - PLGA复合物,为骨组织工程研究提供新的支架材料。
Objective Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for bone tissue Engineering.
1990年初以来,天然纤维增强复合材料在静态和中等受力状态下的应用,例如帽子支架、汽车车顶和汽车内部衬里,是众所周知的。
Natural fiber reinforced composites are well known for static and middle stressed applications such as the hat rack, the car roof or the indoor car interior lining since the beginning of 1990.
目的研究雪旺细胞和生物降解支架材料复合后构建成的组织工程化人工神经修复神经缺损的效果。
Objective To study the outcome of repair of nerve defects with tissue engineering artificial nerve, which was composed of compound of Schwann cells and biodegradable materials.
并在这基础上,把骨髓基质干细胞与生物支架材料复合培养,在体外构建工程软骨和软骨下骨修复体。
Then, on this basis, the bone marrow stromal cells were cultured with the scaffold biomaterials, and the engineering cartilage and subchondral bone restorations were constructed in vitro.
因此,该复合材料有望成为软骨组织工程支架材料之一。
Therefore, the composites are promising scaffolds for cartilage tissue engineering.
最后,借助有限元分析软件,对复合材料相机支架进行了以基频最大化为目标的简单优化设计,将相机支架的基频提高了28.88%。
At last, using finite element analyse software, the composite laminate camera mount is simply optimized aiming at maximizing its first natural frequency, which has an increase of 28.88%.
地铁用高分子复合材料电缆支架。
A high molecular compound material cable rack used for a subway is disclosed.
细胞支架复合组材料表面及孔隙内均有细胞附着。
There were cells adherent to the surface of materials as well as the inside of ventage in the cytoskeleton compound group.
结论PLLA—PD XB复合材料具有优良的细胞亲和性,可望成为一类新的骨组织工程细胞支架材料。
Conclusion the PLLA-PDXB composite has a good cell affinity, and this kind of composite can hopefully become a new scaffold material to be used in the bone tissue engineering.
应用骨组织工程技术修复大的骨缺损成为近年来的研究热点。而成骨细胞和支架材料在体外的复合,是组织工程研究的重点和难点之一。
Repairing main bone defect by bone tissue engineering has been one of popular studies currently, complex osteoblasts and scaffolds in vitro is important and difficult.
结论:CS - PEC复合材料有望成为软骨再生的支架载体。
Conclusions: CS-PEC may be used as scaffold for fibre-cartilage regeneration.
结论:CS - PEC复合材料有望成为软骨再生的支架载体。
Conclusions: CS-PEC may be used as scaffold for fibre-cartilage regeneration.
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