The characteristics of nano-composite materials were simply introduced.
简要介绍了纳米复合材料的特点。
Under the optimal conditions, the CdSe nanoparticles with uniform size can be well in situ modified on the surface of CNTs to produce nano-composite materials with good fluorescence properties.
在该条件下,尺寸均一的硒化镉纳米粒子能够均匀地原位修饰在碳纳米管表面上,同时所得纳米复合材料具有良好的荧光性能。
This paper is related to the method of coating cotton fabric and apparels by used of the nano composite materials for the UV blocking function.
论述将纳米复合材料通过浸渍涂层的方法整理到棉织物及服装产品上,使其具有抗紫外线性能。
Results: SEM showed that nano TiO2 and nano ZrO2 were distributed into dental composite resin evenly and X ray electron probe showed the components of nano materials were 8.59% and 7.55% respectively.
结果:扫描电镜显示纳米二氧化钛和纳米二氧化锆均匀分布在牙科复合树脂中,X-线能谱分析显示纳米材料含量分别为8.59%和7.55%。
The coated composite nano materials with core-shell structures have recently become an increasingly important research branch in materials area.
具有核壳结构的包覆型复合纳米材料是最近几年材料科学前沿的一个日益重要的研究领域。
It was put forward that EG with high conductivity and nano-characters should have a bright future in composite packaging materials fields.
指出膨胀石墨以其优良的导电性能及所呈现出的纳米特性必将在功能性包装材料中得到更广泛的应用。
The progress in preparation and application of iron metal or its alloy nano-materials , iron compound nano-materials and iron composite nano- materials are reviewed.
综述了生物医用铁系单质、合金、化合物、 磁性微球和免疫磁性微球的制备方法、性能和应用,并对其进行了评述。
Recently, nano-composite film materials have been extensively studied because it has both advantages of common composite materials and modem nano materials.
纳米复合薄膜材料由于具有传统复合材料和现代纳米材料两者的优点,成为重要的前沿研究领域之一。
In the present work, some novel Sb-based intermetallic anode materials with high capacity are developed and their cycling stability is improved by applying nano-technology and composite-technology.
本文旨在开发高容量的新型锑基金属间负极材料,并采用纳米技术和复合技术来改善它们的循环稳定性。
In this paper, the research status quo and problems of nano-composite cermet die materials are reviewed, and future trends are put forward.
本文综述了纳米复合金属陶瓷材料的研究现状及存在问题,并指出了今后研究的发展趋势。
The environmental safety effect of nano-sized iron materials including Fe_3O_4, Fe_3O_4-zeolite composite and iron-doped zeolite was studied using a tetrahymena thermophila model.
采用嗜热四膜虫模型,探讨在水体富营养化治理中三种铁系纳米材料的环境安全效应。
The environmental safety effect of nano-sized iron materials including Fe_3O_4, Fe_3O_4-zeolite composite and iron-doped zeolite was studied using a tetrahymena thermophila model.
采用嗜热四膜虫模型,探讨在水体富营养化治理中三种铁系纳米材料的环境安全效应。
应用推荐