聚合物基纳米复合材料以其独特的性能受到人们的重视。
Polymer - nanoparticle composites have been valued for its special properties.
聚合物基纳米复合材料的性质明显不同于传统材料的性质。
The properties of polymer nanocomposites are remarkably different from those of conventional materials.
介绍了环氧树脂基纳米复合材料的制备方法、性能、作用机理及研究进展。
Recent research advances in fabrication methods, the properties and the function mechanism of the epoxy resin-based nanocomposites were introduced in this paper.
介绍纳米材料的特性、制备方法及聚合物基纳米复合材料中纳米材料的表面处理方法。
Introduce the characteristics and preparation methods of nanometer materials as well as its surface-treating methods in the polymer-nanometer material composite.
聚合物基纳米复合材料作为电介质和电气绝缘材料在电力电子技术领域有着广泛的应用前景。
Polymer nanocomposites are promising as near-future dielectrics and electrical insulation from the viewpoint of their inherent excellent properties.
聚合物基纳米复合材料要实现规模化,采用“收敛法”来改性纳米粒子是相对简单、有效的一种方法。
It is relatively simple and effective way that modified nanoparticles by the "grafting to" method to help polymer nanocomposites to achieve larger-scale.
指出了金属基纳米复合材料研究中存在的几个重要问题,展望了金属基纳米复合材料的未来发展趋势。
The development of the relative research and applications in China and abroad were introduced as well. Several major challenges were also analyzed and the future directions were forecast.
用熔融共混法制备出聚丙烯基纳米复合材料,研究了形状和大小不同的纳米介孔MCM - 41填充物对聚丙烯基纳米复合材料的拉伸性能与热性能的影响。
The influences of the different shape and the different size of nano-sized mesoporous MCM-41 on the tensile properties and thermo-stability were investigated.
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.
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.
用原位合成法制备了纳米颗粒增强铝基复合材料,研究了复合材料微观组织、室温拉伸强度、塑性,并与基体合金进行比较。
Microstructure, plasticity and mechanical properties at room temperature of the nano particle reinforcement aluminum matrix composites fabricated by in situ reaction and matrix alloy were studied.
讨论了聚合物基高导热高绝缘纳米复合材料的导热机理与常用的导热理论模型。
The heat conduction mechanisms and theoretical models which were normally used in the high thermal conductivity polymer matrix nano-composites of polymer composites were discussed.
讨论了聚合物基高导热高绝缘纳米复合材料的导热机理与常用的导热理论模型。
The heat conduction mechanisms and theoretical models which are normally used in the high thermal conductivity polymer matrix nano-composites of polymer composites are discusses.
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.
利用超声波和偶联剂处理的方法,制备了纳米微粒填充环氧树脂基复合材料。
Three kinds of nanoparticles were efficiently dispersed into the epoxy resin by using coupling agents and ultrasonic wave.
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.
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.
结果表明,铜-石墨基复合材料随纳米银含量的增加以上性能均有提高。
The results show that, the above properties elevate with the increase of nano silver contents in the composites.
本文利用商业级的聚氨酯预聚体和有机粘土成功制备了聚氨酯基粘土纳米复合材料。
A polyurethane matrix nanocomposite has been successfully fabricated using a commercial grade polyurethane prepolymer and organoclay powders, with the aid of a solvent and supersonic treatment.
本发明的工艺简单,借助纳米碳管的优异特性,制备出高性能的镍或镍基合金复合材料。
It has simple technique and prepares high-performance composite with the help of excellent properties of nano carbon tube.
用伪半固态触变成形技术能够成形陶瓷基复合材料,成形温度大大低于高熔点相纳米粉体熔化温度。
The ceramics matrix composites can be formed by pseudo-semi-solid thixoforming and the forming temperature was much lower than the melting temperature of the high-melting phase-nano-powder.
结果表明,LIGA复合技术得到的纳米颗粒增强镍基复合材料具有较高的强度;
Results show that nano-particle reinforced composite fabricated by LIGA process has high strength;
结果表明,LIGA复合技术得到的纳米颗粒增强镍基复合材料具有较高的强度;
Results show that nano-particle reinforced composite fabricated by LIGA process has high strength;
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