讨论了纳米碳纤维的市场和发展前景。
The market and perspective of development were also discussed.
纳米碳纤维在树脂基复合材料中具有更好的增强效果。
The effect of carbon nanofiber reinforcing polymer-based composites is better than the common carbon fiber.
利用烟幕箱测试分析了纳米碳纤维作为烟幕干扰材料的红外消光性能。
The infrared extinction performance of carbon nanofibers used as smoke interference materials was studied within a smoke chamber.
主要研究了以纳米碳纤维为模板,利用化学镀工艺制备镍纳米管的方法。
The preparation of nickel nano-tubes via electroless plating using carbon nanofibers as templates is investigated.
从纳米碳纤维中直接切取横切面薄膜,用高分辨电镜研究纤维的微观结构。
The cross section of carbon nano-fiber was cut directly and the microstructure of the thin cross section studied by HREM.
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。
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.
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。
Increasing the carbon nanofiber contents, or reducing the diameter of the carbon nanofiber, the influence becomes more obvious, but the crystallization rate rises...
因为纳米碳管的直径仅是碳纤维直径的千分之一,它可以穿过碳纤维中的细缝。
Because these tubes are a thousandth of the diameter of carbon fibres, they can slip into the microscopic Spaces between them.
聚合胶受热松软,纳米碳管通过碳纤维层将其吸入。
When the glue was hot and runny, the carbon nanotubes sucked it up through the carbon-fibre layers.
在纳米螺旋碳纤维中的催化剂颗粒表层,可能有铜的氧化物存在。
There maybe has oxide of copper in the surface of nano copper catalyst particles.
与膨胀性石墨相比,如何发挥活性碳纤维和碳纳米管的实际电容效率是目前研究的重点。
The emphasis was put on how to enhance the real capacity efficiency of active carbon fibers and carbon nanotubes as compared to expanded graphite.
然而,利用氢电弧等离子体法制备的纳米铜和纳米镍作为催化剂,催化热解乙炔,得到的产物均是直线型碳纤维。
However, rectilinear carbon fibers were synthesized by the catalytic decomposition of acetylene with Cu nanoparticles and Ni nanoparticles as the catalyst prepared by hydrogen-arc plasma method.
本文根据甲烷裂解过程中碳纤维的生长机理,设计并制备了具有高活性的纳米镍基催化剂。
In this paper, high active Ni-based catalysts for methane decomposition were designed and prepared according to the growth mechanism of carbon filaments.
利用电沉积的方法制备DNA、纳米金双层修饰碳纤维电极。
The DNA and nano-gold double modified carbon fibre electrode, which can catalyze oxidation reaction of norepinephine, was prepared by electrodeposition.
用扫描电镜对碳纳米管水泥复合材料以及碳纤维改性水泥复合材料的微观结构进行了分析。
The mineralogy and microstructure were also investigated by using scanning electron microscope. Results show that carbon nanotubes are enwrapped by CSH.
二是在碳纤维表面包覆纳米氧化锡颗粒,提供高容量。
Secondly, carbon fiber coated nano-tin oxide particles to provide high capacity.
二是在碳纤维表面包覆纳米氧化锡颗粒,提供高容量。
Secondly, carbon fiber coated nano-tin oxide particles to provide high capacity.
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