Research progress of polysiloxane core-shell particles in recent years was reviewed.
综述了近几年聚硅氧烷核壳粒子的研究进展。
Crosslinking of the outer gelatin layer strengthened the core-shell fibrous membranes.
交联纤维膜在与水结合后表现出与聚己内酯电纺膜相似的拉伸行为。
TEM showed uniform structured composite latex particle morphology and obvious core-shell structure.
TEM显示,复合乳胶粒子形态均匀规整,并呈现明显的核壳结构。
The formation of the hollow spherical structure was interpreted in terms of the core-shell mechanism.
利用核-壳机理初步解释了空心球结构的形成过程。
By modifying their surfaces such as preparing core-shell nanoparticles, many special properties can be obtained.
通过表面改性(如制备核壳结构的纳米粒子)可以使其获得更多特殊的性质。
The mechanical property of epoxy resin modified with silicone particles and core-shell particles was also studied.
将得到的硅橡胶改性环氧树脂,研究了硅橡胶粒子和核-壳粒子改性环氧树脂的机械性能。
The latex with higher core T_g has more obvious core-shell structure, and the pencil hardness of the film is higher.
较高的核玻璃化温度则有利于形成明显的核壳结构乳胶粒子,且有助于漆膜硬度的提高。
The core-shell gold nanoparticle film is fabricated by using nanolithography and self-assembly monolayer technology.
采用纳米模板印刷术和自组装单层膜技术制造了芯壳结构的金纳米粒子膜。
The paper briefly express the method and the effects of the factors in the synthesis of the core-shell structure polymer.
简要叙述了核-壳结构聚合物的合成方法及影响因素;
The research on how to put these core-shell nanocomposites into new nano devices application will be a focus in the future.
本文的主要工作围绕着将新型的金-聚合物核壳结构纳米粒子应用于湿度敏感器件展开。
Acrylate copolymer latex of core-shell structure with rich fluorine in shell was prepared using SDS and OP-10 as emulsifier.
以十二烷基硫酸钠和OP-10为混合乳化剂,制备了壳层富含氟的核壳结构丙烯酸酯共聚物胶乳。
Using core-shell emulsion polymerization have prepared the spraying cotton binder with high elasticity and water resistance.
运用核-壳乳液聚合方法制备了高弹性耐水喷棉胶。
The size and size distribution of core-shell particles, PBA as core and PMMA as shell, are studied by dynamic light scattering.
用动态光散射方法研究了以聚丙烯酸丁脂(PBA)为核、 聚甲基丙烯酸甲脂(PMMA)为壳的核壳双层纳米颗粒的粒径和粒径分布。
In this paper, the progresses on preparation of core-shell materials as well as the trend of composite technology were introduced.
作者介绍了目前以无机纳米粒子为芯核的核壳材料的制备现状,以及复合技术的发展趋势。
Core-shell structural materials because of its composition, size, and different structures can be made into multi-functional materials.
核壳结构材料因其组成、大小、结构不同可以得到一些多功能的材料。
A room temperature film formation and low VOC acrylic finishing coatings has been prepared by core-shell structure emulsion polymerization.
用核-壳乳液聚合方法制备了室温成膜低voc丙烯酸类上光涂料。
The core-shell nanoparticle developed by researchers at Brown University and Oak Ridge National Laboratory addresses both of these problems.
该核壳纳米粒子的研究人员开发的布朗大学和橡树岭国家实验室这些问题都解决了。
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。
The zeta potential of core-shell composite particles were still minus, so multiple layers of BFP on the surface of microspheres could be obtained.
真空干燥后的核壳复合粒子在不经任何表面修饰就可进行多层包裹BFP。
The results show that the particle size of core is the principal factor affecting the coat effect of fine TATB-BTF core-shell composite particles.
结果表明,核粒大小是影响超细TATB - BT F核-壳型复合粒子包覆效果的主要因素。
New methods for the toughening of epoxy resin by rubber elastomers, thermoplastic resins, rigid particles and core-shell polymer particles are introduced.
介绍了环氧树脂增韧改性的新方法,即用橡胶弹性体、热塑性树脂、刚性粒子和核壳型结构聚合物来增韧环氧树脂。
During the last decades, there has been increasing interest in core-shell materials with unique functions due to its potential in developing novel materials.
几十年来,核壳功能性材料因具有很大的发展潜力而引起人们广泛的兴趣。
The concept, synthesis mechanism, preparation method and test measure of the core-shell emulsion, along with factors affected the performance were introduced.
介绍了核壳乳液聚合工艺的概念、合成机理、合成方法、影响因素以及测试方法。
And discusses the class of prepared material, emphasizes on introducing new templating development in core-shell structure materials, censphere materials and biotechnology.
论述了利用模板技术可以制备材料的类型及模板技术在核壳结构材料、空心微球材料、生物技术方面的新进展。
Particulate of graphite electrode wastes from an electric-carbon materials factory was formed "core-shell" negative materials by chemical deposition coating with medium pitch.
以大功率石墨电极废品破碎后的微粒为“核”,以中温沥青为包覆原料,经化学沉积包覆形成“核-壳”型锂离子蓄电池负极材料。
Due to their uniform size and regularity in the structure, core-shell structure composite nanoparticles will exhibit unique properties in electromagnetism, optics and mechanism.
统一尺寸、结构上有序包覆的核壳型复合材料,具有高折射率以及独特的电磁、光学和机械性质。
UV curing polyacrylate pressure sensitive adhesive was synthesized by core-shell polymerization, at the same time, chain transfer agent NDM was added for controlled reaction rate.
采用本体聚合方法将丙烯酸酯单体的混合物实施热聚合制备预聚体,采用核-壳聚合法的单体投料方式同时加入链转移剂十二烷基硫酵来控制反应进程。
Coated powder materials with particular core-shell structure have excellent properties of both core material and shell material, more homogeneous structure and particular functions.
具有核壳结构的包覆复合粉体材料,兼有包覆层材料和被包覆粉末材料两种物质的优良性能,获得了更加均匀的组织结构和特殊功能。
This dissertation mainly studies on the preparation of polymeric-inorganic composite microspheres of core-shell structure based on template method of polymeric hydrogel microspheres.
本论文主要对基于高分子水凝胶微球为模板制备有机—无机复合材料进行了研究。
The importance of surface modification and modification methods are briefly stated. And the preparation of core-shell nano-material is an important technique for surface modification.
简述了纳米微粒表面修饰的重要性以及修饰方法,并指出制备核壳型纳米材料是一种重要的表面修饰方法。
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