The effect of carbon nanofiber reinforcing polymer-based composites is better than the common carbon fiber.
纳米碳纤维在树脂基复合材料中具有更好的增强效果。
These cartridges utilize advanced nanofiber technology featuring ceramic nanofibers on a micro-glass matrix.
这种过滤器利用先进的纳米纤维技术,采用了微玻璃基质上的陶瓷纳米纤维。
The invention relates to a method for preparing a nanofiber bracket material using levorotatory polylactic acid as matrix.
本发明涉及以左旋聚乳酸为基质的纳米纤维支架材料的制备方法。
The electrospinning machines, new development of electrospinning and the applications of nanofiber membranes were introduced.
介绍了静电纺丝机、静电纺丝技术的新进展及静电纺纳米纤维膜的应用。
Nanofiber scaffolds can mimic the structure and function of extracellular matrix, and have advantages for tendon tissue engineering.
纳米纤维材料可以模拟细胞外基质的机关和成果,作为肌腱组织工程的支架有明明的优越性。
The invention discloses a polymer composite resistance-type humidity sensing element with a nanofiber structure and the preparation method thereof.
本发明公开了具有纳米纤维结构的高分子复合电阻型湿敏元件及其制作方法。
The observation using scanning electron microscope and transmission electron microscope show such a single hairy nanofiber looks like a tiger tail.
扫描电镜和透射电镜观察显示单根多刺的纳米纤维结构类似于老虎尾巴。
Via chemical vapor reaction, carbon nanotubes were assembled on the surface of carbonized electrospun nanofibers to form hairy carbon nanofiber structure.
通过化学气相反应,碳纳米管被组装到碳化的电纺纳米纤维上,形成多刺的碳纳米纤维结构。
Increasing the carbon nanofiber contents, or reducing the diameter of the carbon nanofiber, the influence becomes more obvious, but the crystallization rate rises...
提高纳米碳纤维含量或减小纳米碳纤维直径,PP结晶行为的上述变化更为明显,但结晶速率随纳米碳纤维含量出现先减小后增大的趋势。
The results show that the carbon nanofiber can heighten the crystallization temperature of polypropylene and lower its crystallization rate and degree of crystallization in small extent.
结果表明:纳米碳纤维可提高PP的结晶温度,但略降低其结晶速率和结晶度。
BACKGROUND: High-porosity polycaprolactone (PCL) nanofiber scaffolds have a good multi-pore structure for the adhesion and proliferation of vascular smooth muscle cells and perfect biocompatibility.
背景:高孔隙率聚己内酯纳米纤维支架具有适合血管平滑肌细胞黏附、增殖的多级孔径结构,具有良好的细胞生物相容性。
BACKGROUND: High-porosity polycaprolactone (PCL) nanofiber scaffolds have a good multi-pore structure for the adhesion and proliferation of vascular smooth muscle cells and perfect biocompatibility.
背景:高孔隙率聚己内酯纳米纤维支架具有适合血管平滑肌细胞黏附、增殖的多级孔径结构,具有良好的细胞生物相容性。
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