The study of the nanostructured refractory metals was mentioned.
简述了纳米晶难熔金属的研究现状。
With excellent properties nanostructured material has a widespread application prospect.
纳米材料具有多种优异的性能,有广泛的应用前景。
In Chapter 2, we have demonstrated a novel synthesis methodology for nanostructured materials.
在第二章节中,我们研发出一种合成奈米结构材料的新颖方法。
Nanostructured semiconductor is important for both theoretical research and future application.
纳米结构半导体具有重要的理论研究价值和潜在的应用前景。
Nanostructured bulk of W-Cu alloy was prepared by mechanical alloying and hot pressed sintering.
在真空电炉中利用机械合金化和热压烧结法制备出纳米晶块体钨铜合金。
Flame Deposition Technique is one of method of preparing nanostructured Vanadium phosphorus Oxide.
火焰沉积技术是制备纳米级钒磷氧化物的方法之一。
Thermal sprayed nanostructured coating is one of the present promising fields in nanostructured coating.
热喷涂纳米涂层的研究是目前纳米涂层领域研究热点之一。
Processes for forming films comprising multiple layers of nanostructured support elements are described.
本文描述了形成包括多层纳米结构化支承元件的薄膜的工艺。
Great progress of fabricating nanostructured by HVOF has been made according to the situation home and abroad.
从目前国内外的情况来看,HVOF喷涂纳米结构涂层技术的研究取得了较大的进展。
Nanostructured materials have unique properties in the aspects of hardness, strength, ductility and toughness.
纳米材料与常规材料相比在硬度、度、性等方面具有独特的性能。
It includes two sections: zero dimensional nanostructured material and one dimensional nanostructured material.
分零维材料和一维材料两节来介绍。
Preparation and capacitance properties of nanostructured manganese dioxides were mainly researched in this paper.
本文主要研究了纳米二氧化锰材料的制备和电容性能。
Definition, manufacture, structure, properties and applications of nanostructured materials are briefly described.
简述了纳米材料的定义、制备、结构、性能和应用。
Other indicators of healthy bone growth, such as collagen synthesis, were also stronger with nanostructured discs.
其它健康的骨生长的标志,比如胶原蛋白的合成也是纳米结构的盘片上更强一些。
With many excellent physical mechanics property, nanostructured ceramic coatings will be extensively used in industry.
纳米结构陶瓷涂层材料具备许多优异的物理力学性能,在工业上有广泛的应用前景。
Study on plasma sprayed nanostructured ceramic coating is one of the present promising fields in nanostructured coating.
等离子喷涂纳米陶瓷涂层的研究是目前纳米涂层领域研究热点之一。
We gave a rational explanation for this phenomenon by using quantum effect and surface effect of nanostructured materials.
我们用纳米材料的量子效应和表面效应对蓝移现象进行了解释。
The last decade development of martensitic transformation in nanostructured materials and thermodynamic studies are reviewed.
概括了近十年来,纳米材料的马氏体相变和热力学研究的最新结果。
A review is given on the research progress in nanostructured ceramic coatings prepared by plasma spraying at home and abroad.
等离子喷涂纳米陶瓷涂层是目前纳米涂层领域的研究热点之一。
Now, scientists from the University of Southampton have announced the development of a new type of nanostructured glass technology.
而最近,南安普敦大学的科学家们又公布了他们的发明,一种新型的纳米玻璃技术。
The effects of nanostructured mesoporous material MCM41 on the dynamic mechanical behavior of PMMA were studied by DMTA technique.
应用动态力学热分析技术研究了纳米介孔材料MCM - 41对有机玻璃PM MA动态力学行为的影响。
This kind of nanostructured surface layer with compressive stress could significantly increase the fatigue strength of butt welded joint.
这种压应力纳米强化层可以明显地提高对接接头的疲劳性能。
In recent years, unique mechanical properties of nanostructured materials motivated a worldwide interest to form nanostructured coatings.
近几年来,纳米结构涂层的热喷涂研究成为新的发展趋势。
This project focused on key problems and mechanisms in the design, synthesis, properties and applications of nanostructured carbon materials.
本项目重点对纳米炭材料的设计、合成、性能及其应用所涉及的关键科学问题进行深入研究和探讨。
A new nanostructured material that absorbs a broad spectrum of light from any Angle could lead to the most efficient thin-film solar cells ever.
有一种新型纳米结构原材料,因其可吸收来自各个角度的广谱光源,能制成有史以来最有效的薄膜太阳能电池。
Nanostructured materials are expected to play a crucial role in the future technological advance in electronics, optoelectronics, and memory devices.
纳米结构材料在电子学、光电子学及存储器件等领域具有深远的应用前景。
Additional layers of nanostructured support elements may be grown on the first layer of nanostructures through additional deposition and annealing steps.
纳米结构化支承元件的附加的层可通过附加的沉积和退火步骤在纳米结构的第一层上生长。
Just as a radio antenna will resonate with and absorb certain radio waves, nanostructured optical antennas can resonate with and absorb visible and infrared light.
就像收音机天线可以与特定的声波共振并吸收它们一样,纳米结构光学共振也可以与可见的红外光并吸收它们。
Just as a radio antenna will resonate with and absorb certain radio waves, nanostructured optical antennas can resonate with and absorb visible and infrared light.
就像收音机天线可以与特定的声波共振并吸收它们一样,纳米结构光学共振也可以与可见的红外光并吸收它们。
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