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.
综述了碳纳米管增强高聚物在导电性能、微波吸收性能、光学性能及导热性能等方面的研究进展。
The research progress of carbon nanotubes reinforcing polymer's electrical, radar absorbing, optical and thermal conductivity properties was reviewed.
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.
实验结果表明,经由化学修饰后碳纳米管的湿敏效应有了极大的增强。
The experimental results have been shown that the humid sensitive properties were greatly enhanced via chemical modified.
这里,提出三步纯化法,去除了碳纳米管阵列顶端的催化剂颗粒,极大地增强了碳纳米管的表面场强。
The catalyst grains on the top of CNTs is removed by using three step purified method in this paper, the electric field intensity is enhanced.
通过化学镀可在碳纳米管表面镀上一层连续的银镀层,以增强碳纳米管与金属基体的界面结合力。
Through electroless plating carbon nanotubes were coated with a continuous layer of silver, which will increase interfacial strength between carbon nanotubes and metal-matrix.
通过化学镀在碳纳米管表面镀上一层连续的铜镀层,以改善碳纳米管与金属基体的润湿性,增强界面结合力。
Interfacial strength would be increased between carbon nanotubes and metal-matrix through electroless plating a continuous layer of copper on carbon nanotubes.
介绍了一种单壁碳纳米管表面增强拉曼散射的新方法。
A new technique in SERS study on single walled carbon nanotubes is reported.
使用碳纳米管作阳极以增强空穴注入和传输的能力。
CNT material was used as anode to improve the input and transport abilities for holes.
研究表明,与传统炭黑增强样品相比,碳纳米管在橡胶中的混入速度快,温升幅度小,混炼胶的硫化返原现象减轻。
The results showed that the nanotubes mixed rapidly into the rubber with little temperature increase during the mixing. The curing reversion of rubber composites was also reduced.
研究表明,与传统炭黑增强样品相比,碳纳米管在橡胶中的混入速度快,温升幅度小,混炼胶的硫化返原现象减轻。
The results showed that the nanotubes mixed rapidly into the rubber with little temperature increase during the mixing. The curing reversion of rubber composites was also reduced.
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