Therefore, NSK bearings reduce the grease resistance by adding nano-particles to it.
因此,NSK轴承,减少加入纳米粒子,它的耐油脂性。
Based of it, codeposition mechanism of nano-particles with metal ions was introduced.
并在此基础上,阐述了纳米颗粒与金属共沉积的机理。
Nano-particles on the surface active center, it provided a catalyst for the necessary conditions.
纳米粒子表面活性中心多,为它作催化剂提供了必要条件。
Surface-modification and assembly of nano-particles have received great attention in the past few years.
近年来,纳米材料表面的修饰和组装越来越受到关注。
The contrast agent comprises conventional microbubbles as well as solid metal nano-particles or combinations thereof.
该造影剂包括传统的微泡和固态金属纳米颗粒或它们的组合。
A lot of research need do because it is difficult to resolve the problem of uneven dispensability of nano-particles in polymer.
但如何解决纳米粒子在高分子基体中难以均匀分散的问题,仍需要做大量的研究工作。
Supercritical Anti-Solvent (SAS) process has been proposed recently to prepare micro-and nano-particles by supercritical fluids.
超临界反溶剂过程是近年来提出的一种利用超临界流体制备超细粉体的新工艺。
The formation mechanism of carbon nanotubes coated with metallic nano-particles by using anode-arc discharge method was analyzed.
分析了阳极弧等离子体法合成碳纳米管内包覆金属纳米粒子的形成机理。
The DLA model is improved to simulate the process of stochastic walking and adherence of nano-particles under periodic vibrations.
通过改进的DLA模型,重复出颗粒随机行走和粘附的动力学过程。
The influence of nano-particles ferric oxide quantity to the performance properties of ultraviolet radiation shield nano - coatings.
讨论了纳米氧化铁的不同加入量对涂层抗紫外光性能的影响。
Results showed that homogeneous-dispersed hexagonal Y2O3 nano-particles could be prepared under the primary technological conditions.
结果表明,在初步的工艺条件下,可以得到分散均匀的体心立方结构纳米y_2o_3颗粒。
Recent research advances in the toughness modification of epoxy resin by various inorganic nano-particles were systematically surveyed.
综述了近年来各种无机纳米粒子增韧改性环氧树脂的研究现状。
In this paper, ferric iron nano-particles were prepared by sol-gel auto-combustion and used as the catalyst of carbon nanotubes (Cnts).
利用溶胶一凝胶自蔓延燃烧法制备出了纳米氧化铁,并用其作为碳纳米管制备的催化剂。
The basic properties, surface modification technology of nano-particles and the preparation of nano - modification coating are introduced.
本文叙述了纳米粒子的基本特性、表面改性技术、纳米粒子改性涂料的制备。
The results show that the microstructure of nano composite coatings is obviously fined and compacted because of containing nano-particles.
结果表明:纳米颗粒的加入使复合镀层组织明显细化和致密。
The influences of emulsifiers and functional monomers on the particle size and particle size distribution of nano-particles were discussed.
研究了乳化剂、官能单体对纳米粒子的粒径及其分布的影响。
Based on testing of fabric static voltage, the influence of nano-particles treatment on the antistatic property of polyester fabric was studied.
通过对织物静电压值的测定,研究无机纳米粒子处理对聚酯织物抗静电性能的影响。
The author decided to use LSV technic to measure the nano-particles velocity based on compare with several methods to measure the particles in flow.
在对流体测试几种方法进行比较研究的基础上,确定了利用激光散斑测速技术对纳米流体中纳米颗粒进行测量的实施方案。
The magneto-rheological fluid of iron nano-particles was used as working medium of hydraulic system, the designed magneto-rheological valve was studied.
配制了纳米铁粉磁流变流体,以此为介质,对设计的磁流变阀进行了实验研究。
When the nano-particles' weight content was 8%, the drop of breakdown strength reach smallest value and the thermo-decomposed temperature reach the highest value.
在硅铝共掺杂的薄膜中,当硅铝总含量为8%时杂化薄膜的击穿强度下降最少,薄膜的热分解温度达到最高值。
The characteristics of some preparation methods were analyzed. The application foreground and progress tendency of nikel nano-particles was also explained briefly.
对比分析了一些制备方法的特点,同时简单地介绍了纳米镍粉的应用前景和发展趋势。
For the special paramagnetism and bulk effect, the compounding of magnetic nano-particles and their application in biomedicine has drawn many research fellows attention.
磁性纳米粒子具有特殊的顺磁性和体积效应,近年来,磁性纳米粒子的合成和生物医学应用已引起了研究工作者的广泛兴趣。
A steady numerical simulation of the effect of nano-particles on nucleation sites in nucleate pool boiling heat transfer was conducted based on the experimental boiling curves.
根据实验所得沸腾曲线,对纳米颗粒悬浮液进行稳态数值模拟,计算了不同过热度下活化核心的密度。
The nano-composite coatings have many functions and high performance can be manufactured by putting appropriate nano-particles into polymer and they can be applied to many fields.
选择不同功能的纳米材料与种类繁多的聚合物通过恰当的匹配可制备出一系列多功能、高性能的纳米复合涂料,广泛的应用于建筑、木器和汽车涂料等诸多领域。
The creation of nano-particles that can be consumed where the tiny nano cells would penetrate the cells in the brain to release chemicals that allow for massive increases in memory.
记忆就是产生纳米粒子,然后这些微小的纳米细胞渗入脑细胞中,产生促使记忆大幅增长的化学物质。
The homogeneous dispersion of nano-particles and processing of high-performance polymer nanocomposites still is a technical challenge due to the high active surface of nanoparticles.
纳米材料的高表面活性使其易于团聚,这为其分散和高性能纳米复合材料的制备工艺带来挑战。
Therefore, the SERS technology with the silver nano-particles as the SERS-active substrate has been widely applied in many fields, such as biology, physics, chemistry, material and so on.
这使得以纳米银颗粒作为活性基底的SERS技术在生物、物理、化工、材料等领域都有着广泛的应用。
Therefore, the SERS technology with the silver nano-particles as the SERS-active substrate has been widely applied in many fields, such as biology, physics, chemistry, material and so on.
这使得以纳米银颗粒作为活性基底的SERS技术在生物、物理、化工、材料等领域都有着广泛的应用。
应用推荐