最大的问题是那些纳米纤维不能潮湿。
讨论了碳化硅纳米纤维的气-固生长机理。
Vapor-solid growth mechanism of the SiC nanofibers was discussed.
综述了电纺纳米纤维在一些领域的应用进展。
The applications of the electrospun nanofibers in some fields are reviewed.
所述热导材料包括集成了纳米纤维的有机基体。
Said thermally conducting material consists of an organic matrix with incorporated nanofibers.
在超声场下用直接混合法合成了聚苯胺纳米纤维。
Polyaniline nanofibers were synthesized by direct mixing reaction in ultrasonic field.
电纺丝技术是一种高效低耗的纳米纤维制备方法。
Electrospinning has been recognized as an high effect and low cost technique for the fabrication of polymer nanofibers.
科学家以液态的PAN制成非常致密的纳米纤维网。
The scientists spun liquid PAN into a very dense web of nanoscopic fibers.
讨论高阶应变梯度对纳米纤维轴向应变分布的影响。
The influence of high-order gradient of strain on static analysis of nanofibers is discussed.
论述了纳米纤维制备新方法和典型纳米纤维的应用前景。
New manufacturing techniques of nanofibers and the prospect of applications of typical nanofibers are reviewed.
静电纺丝技术是一种直接且相对容易的纳米纤维制备方法。
Electrostaticspinning is a direct and relatively easy method for making nanometer fiber.
乙醇催化燃烧法可以方便的制备出碳纳米管和碳纳米纤维。
The ethanol catalytic combustion technique was used to synthesize carbon nanotubes and carbon nanofibers.
静电纺丝技术是一种直接且相对容易的纳米纤维制备方法。
It is suggested that solid carbon nanofibers can be made by electro-spinning method.
低密度导电材料可以包括任选与碳纳米纤维结合的金属丝网。
Low density conductive materials can include metal screens, optionally in combination with carbon nanofibers.
静电纺丝技术是目前制备超细纤维和纳米纤维重要的方法之一。
Electrospinning is one of the most important methods to produce nanofibers or ultrafine fibers.
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 invention relates to a method for preparing a nanofiber bracket material using levorotatory polylactic acid as matrix.
静电纺丝技术是现阶段一种制备数十到数百纳米纤维的有效方法。
Electrospinning is one of the effective methods to produce nanofibers with diameter ranging from several nanometers to hundreds of nanometers.
静电纺丝技术作为制备纳米纤维最简便的方法之一具有独特的优势。
Electrospinning technology as one of the most convenient ways to produce nanofibers possesses unique advantage.
目的:探讨高孔隙率聚己内酯静电纺丝纳米纤维支架的细胞相容性。
OBJECTIVE: To evaluate the cell biocompatibility of high-porosity PCL scaffold made by electrostatic spinning technology.
提出的方法有效地解决了电纺纳米纤维直径不均匀和不可控制的难题。
In conclusion, this method has reliably and effectively solved the instability and uncontrollability of nanoscale fiber manufarturing.
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。
The electrospinning machines, new development of electrospinning and the applications of nanofiber membranes were introduced.
高压静电纺丝作为一种制备纳米纤维的先进技术,近年来受到普遍关注。
Electrospinning, as an advanced technique to prepare nanofibers, has been widely used in recent years.
本文利用分子模拟的方法模拟了氢气分子在平板状碳纳米纤维中的吸附。
Hydrogen adsorption in carbon nanofibres termed platelet has been simulated with molecule simulation method in the paper.
对甲烷催化裂解制氢和生产碳纳米纤维两个过程耦合的可能性进行了研究。
The feasibility of simultaneous hydrogen and carbon nanofibers production from the catalytic decomposition of methane was discussed.
在浓度和电压较高的情况下,首次制备了空心管束结构的PVP纳米纤维。
The structure of hollow nanotube bundle was first reported at high PVP concentration and applied voltage.
这种生物高分子纳米纤维在组织工程支架、 组织修复等方面有独特的优势。
The electrospun nanofibers of biopolymers have many potential applications in tissue engineering and wound dressing.
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。
These cartridges utilize advanced nanofiber technology featuring ceramic nanofibers on a micro-glass matrix.
其中重点介绍了激光消融法制备纳米颗粒、纳米纤维、纳米薄膜的原理和现状。
The emphases are laser ablation principle and status quoin fabrication of nano-particle, nano-fibre, nano-thin film.
虽然在交联过程中明胶纳米纤维发生了收缩和粘连现象,但膜的孔隙仍得以维持。
Nanofibrous structure of the membrane was still retained after lyophilization, although the fibers were curled and conglutinated.
静电纺丝(电纺)技术是一种制备直径为数十纳米到数微米的纳米纤维的有效方法。
Electrospinning is one of methods to produce effectively nanofibers with diameter ranging from several nanometers to several microns.
静电纺丝(电纺)技术是一种制备直径为数十纳米到数微米的纳米纤维的有效方法。
Electrospinning is one of methods to produce effectively nanofibers with diameter ranging from several nanometers to several microns.
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