纳米晶材料是纳米材料研究领域中的热点之一。
Nanocrystalline materials is one of the hot topics in the research field of the nanometer materials.
纳米金刚石是纳米材料家族中的一个重要成员。
Nano diamond is an important member in the nano material family.
肺,小肠,大肠可能是纳米粒子排泄的另外途径。
Lung, small intestine and large intestine may also be excretion pathways.
纳米碳管的纯化是纳米碳管研究领域的一个重要课题。
Developing a purification technique remains a significant task in the field of carbon nanotubes research.
而非晶合金晶化法是纳米晶材料的主要制备方法之一。
Nano-crystallization of metallic glasses is an effective way to prepare nanocrystalline materials.
消除这个鸿沟是纳米技术多年来让我们为之兴奋鼓舞的许诺。
Closing this gap is one promise of nanotechnology, a promise that has been hyped for many years.
导电高分子纳米复合材料是纳米材料研究中一个重要部分。
Conducting polymer nanocomposites are very important inclusions in the list of novel nanometer materials and composites.
纳米粉体的易团聚性是纳米印染助剂开发以及应用的瓶颈。
Nanometer powders are prone to conglomerate, and it is the bottleneck in the development and application of the nanometer auxiliaries for dyeing and printing.
纳米金属材料的表面包覆和修饰是纳米材料学的一个新型研究方向。
The surface coating and decoration of nano-metal materials is a new research field in nano-science.
这个页面说明了什么是纳米技术,并介绍了关于NCN贡献的特定主题。
This page explains what nanotechnology is and introduces specific themes of NCN's contribution.
粉体的团聚问题是纳米金属氧化物制备过程中不可忽视的一个重要问题。
Flour agglomeration is an important problem not be ignored for the preparation of metal oxide nanoparticles.
材料纳观力学特性与纳米材料力学特性的测试是纳米实验力学的基本内容。
Testing of material nano-scale mechanics and nano-materials mechanical properties is the important content of nano experimental mechanics.
其催化机理认为是纳米催化剂与AP的离解产物形成不同形式络合物实现的。
The catalysis of these nanometer metal oxides is mainly resulted from the different formation of complex compound, which is formed by nanometer metal oxide and decomposition products of AP.
纳米结构制作是纳米技术的重要组成部分,原子光刻技术是纳米图形制作的一项新方法。
Fabrication of nanostructures is an important part of nanotechnology, and atom lithography technology is a new nanostructure fabrication method.
块体纳米材料是纳米材料的重要组成部分,制备块体纳米材料是实现纳米材料大范围应用的关键。
Undercooling production technology of bulk nanometer material was introduced, questions to be solved to preparing bulk nanometer materials were pointed out in this paper.
块体纳米材料是纳米材料的重要组成部分,制备块体纳米材料是实现纳米材料大范围应用的关键。
Bulk nanometer material is an important part of nanometer material, and a key to wide use for the nanometer material.
其机理是纳米碳酸钙与硅橡胶的相互作用,从而提高了纳米碳酸钙填充室温硫化硅橡胶的耐热性能。
Adding nano-calcium carbonate may result in Si-OH hydroxyl of silicone rubber interacting with the nano-calcium carbonate, which can improve the thermal stability of filled rubbers.
数字相关技术是纳米颗粒测量技术中的一个关键环节,自相关函数的估计质量直接影响颗粒测量结果。
Digital correlation is an important technique in photon correlation spectroscopy. The quality of auto-correlation function determines the measure result.
超晶格涂层是纳米尺度下两种不同层以超晶格周期层间交替形成的多层结构,层间厚度在5—10纳米。
The superlattice coatings are an alternate multilayer structure under nanometer scale. The period thickness is 5-10 nanometer.
扫描探针显微镜是近十几年来在表面特征、表面形貌观测方面最重大的进展之一,是纳米测量学的基本工具。
The scanning probe microscope is one of the most important developments on observing and determining surface topography and surface properties in near ten years and is basic tool of nano-measurement.
在加热过程中,纳米钴和钴镍在DSC测试中都有一个明显的放热峰出现,这个放热峰可以认为是纳米晶粒长大峰。
Upon heating in DSC, there is an obvious exothermic peaks in nano-grained Co and CoNi, which represent the grain growth.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Professor Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
提高作为纳米科技的“眼”和“手”的扫描探针显微镜(SPM)的测量和定位精度,是纳米仪器界始终追求的目标。
It is an objective for nanometer instrument researcher to improve the measurement precision of scanning probe microscope (SPM), the eye and hand of nanometer science and technology.
该复杂体系内流体分子表现出的丰富的相态和奇异的行为是纳米介孔材料在化学工业及其他相关工业中广泛应用的重要原因。
The fantastic phase behavior of confined fluids is an important factor to the application of porous nano-materials in chemical engeneering and other fields.
纳米尺度下的气体流动具有不同于常规尺度的规律,其中重要的特征是纳米间隙中气体分子自由输运行程将减小,进而影响气体的输运规律。
Gas flow in nanoscale space has distinct characteristics compared with that in conventional macro-scale, due to the influence of space dimension on gas mean free path.
因为我们有我的红色激光笔,我们也会尝试红色激光笔,它的中心波长是 700纳米。
Since we have my red laser pointer, we will also try with the red laser pointer, which is centered at wavelength of 700 nanometers.
因为我们有我的红色激光笔,我们也会尝试红色激光笔,它的中心波长是 700纳米。
Since we have my red laser pointer, we will also try with the red laser pointer, which is centered at wavelength of 700 nanometers.
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