提供聚合物-碳纳米管复合材料膜用作检测化学蒸气的传感器。
A polymer-carbon nanotube composite film is provided for use as a sensor for detecting chemical vapors.
如果我们看一下碳纳米管的例子,碳纳米管在复合材料上的应用远早于它在电子设备上应用。“他指出。”
'If we look what happened to carbon nanotubes, carbon nanotubes made it into composites way before they ever made it into electronic devices,' he said.
结果表明,采用真空热压后热轧工艺制备的碳纳米管铜基复合材料的致密度较高且能有效地防止被氧化。
SEM and XRD results show that the composite that is hot rolled after vacuum forming, has relatively high density and can avoid being oxidized effectively.
碳纳米管极高的强度、韧性及其纳米尺寸和极大的长径比,使其有望成为复合材料理想的增强体。
The super high strength, ductility, nanometer scale and large aspect ratio of carbon nanotubes (CNTs) make it an ideal reinforcement additive for composites.
由单质硫与碳纳米管合成一种新型含碳复合材料。
A carbon-containing composite was synthesized by heating element sulfur and carbon nanotubes.
磺酸基官能团可以改善碳纳米管的化学性质,促进其在复合材料以及涂层中的应用。
Functionalized carbon nanotubes containing sulfonic groups can improve the chemical property of nanotube, and may promote their many potential applications such as in composites and coatings.
通过用选自聚乙酸乙烯酯、聚异戊二烯、或其共混物中的聚合物涂布垂直定向碳纳米管,从而形成复合材料膜。
The composite film is formed by coating perpendicularly-aligned carbon nanotubes with a polymer selected from poly (vinyl acetate), poly (isoprene), or blends thereof.
首先介绍了碳纳米管的性质和优点,并讨论了将其应用于制备金属基复合材料方面的优势。
At first, the character and excellence of carbon nano-tubes (CNTs) are introduced, and the superiority of CNTs is discussed when it is used to fabricate mental matrix composite.
讨论了不同碳纳米管的制备方法、碳纳米管的类型、碳纳米管的表面处理等因素对复合材料性能的影响。
The effects of the preparation method, the type and the surface treatment of CNTs on the property of the composite were discussed.
采用粉末冶金法制备碳纳米管-银-石墨电接触复合材料,研究石墨含量的变化对复合材料接触电压降的影响。
In this paper, the effects of graphite content on the contact voltage drop of CNTs-Ag-G composites fabricated by means of powder metallurgy are studied.
研究了碳纳米管的加入量与分散程度对复合材料的拉伸强度、拉伸模量、断裂伸长率的影响。
The effects of the content and dispersion of carbon nanotubes on the tensile strength, tensile modulus and ratio of elongation of the nanocomposites were studied.
由于碳纳米管与基体的界面结合强度低,使复合材料抗弯强度下降。
Because the low interface strength of carbon nanotube and metal matrix, carbon nanotube do not act as enhancements to bending.
近年来,碳纳米管增强复合材料纤维的制备与数值模拟受到了很大的关注。
The reinforcement mechanism of the CNT-based polymer composites has become a key issue in the field of nanomaterials.
在天然石墨(NG)中掺杂不同比例的碳纳米管(CNT)得到纳米碳与石墨碳的复合材料。
When natural graphite(NG) is doped with different ratios of carbon nanotube(CNT), a composite material formed by nano-C and graphite-C was obtained.
[10]聂俊辉,贾成厂,张亚丰,等。机械球磨与放电等离子体烧结制备碳纳米管/铜复合材料[J]。粉末冶金工业,2011,21(5):44-50。
NIE J H, JIA C C, ZHANG Y F, et al. Fabrication of carbon nanotubes/copper composites using mechanical milling and spark plasma sintering[J]. Powder Metallurgy Industry, 2011,21(5):44-50.
在该条件下,尺寸均一的硒化镉纳米粒子能够均匀地原位修饰在碳纳米管表面上,同时所得纳米复合材料具有良好的荧光性能。
Under the optimal conditions, the CdSe nanoparticles with uniform size can be well in situ modified on the surface of CNTs to produce nano-composite materials with good fluorescence properties.
对复合材料的结构与拉伸强度进行了表征研究,表明接枝聚合物链的碳纳米管显著提高了PVC的拉伸强度。
The structure and tensile strength of nano-composites was studied. Results show that MWNTs grafted polymer chain enhances the tensile strength of PVC significantly.
目前陶瓷纳米复合材料是人们开发的热点。碳纳米管与其它材料的复合材料的开发也是热点。
At present, ceramics nanocomposites as well as those composed of carbon nanotube and other composite materials are hot materials for development.
碳纳米管经纯化、氧化、敏化、活化预处理后,在碱性镀液中化学镀磁性金属钴磷合金,得到一维纳米复合材料。
After purification, oxidization, sensitization, and activation pretreatment, the surface of carbon nanotubes was deposited with Co-P by the electroless deposition method.
综述聚合物基复合材料中碳纳米管传感的最新进展:碳纳米管与树脂共混、碳纳米管涂层纤维、碳纳米线和碳纳米纸。
Research advances in carbon nanotubes sensing in polymer composites are reviewed: carbon nanotubes filler, carbon nanotubes coated fiber, carbon nanotubes yarn and carbon nanotubes paper.
介绍了用碳纳米管与炭黑(或石墨)混合填充的聚合物复合材料的导电特性;
Conductive properties of polymer composites filled with two kinds of carbon materials (carbon nanotubes and carbon black or graphite) are introduced and the conductive mechanism is expounded.
碳纳米管在复合材料中充当了成核剂,提高了PA66的成核速度,但降低了其结晶总速度。
Carbon nanotubes in the composite acted as nucleating agent, increased the nucleation rate of PA66, however, reduced its overall rate of crystallization.
以超声分散塬位聚合的方法制备出不同碳纳米管含量的碳纳米管,聚酰亚胺功能复合材料膜。
The polyimide nano-composite films with different concentrations of carbon nano-tube were prepared by means of ultrasonic blending and in- situ polymerization.
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.
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.
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