本文研究了聚丙烯酸丁酯/聚甲基丙烯酸乙酯核/壳结构弹性体粒子对HIPS的增韧作用,提出了一个新的增韧机理。
The toughening of HIPS is studied by blending it with a polybutylacrylate/polyethylmethacrylate core/shell structure elastomer particles, an a new mechanism of toughening isproposed.
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 latex with higher core T_g has more obvious core-shell structure, and the pencil hardness of the film is higher.
对单粒子能级的计算和分析表明超重核的壳结构是形变和同位旋相关的。
The investigation of single-particle levels shows that the shell structure is deformed and isospin dependent.
通过透射电镜的观察,证明胶乳粒子为核壳结构;
The nuclear-hull structure of the latex particles can be proved by means of SEM.
在大部分病毒里能清晰地看到核芯壳,成熟的病毒从感染细胞的胞浆膜上出芽,在胞浆中还见到了花环状粒子和多板层结构。
The virions budding from cytoplasmic membrane of infected cells, the ring like particle and multilaminated structures in cytoplasm of infected cells were observed.
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。
New methods for the toughening of epoxy resin by rubber elastomers, thermoplastic resins, rigid particles and core-shell polymer particles are introduced.
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。
By modifying their surfaces such as preparing core-shell nanoparticles, many special properties can be obtained.
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。
TEM showed uniform structured composite latex particle morphology and obvious core-shell structure.
这种结构可以产生单一纳米粒子无法得到的许多新性能,因而具有许多不同于核、壳材料的独特的光、电、磁、催化等物理和化学性质。
These structures present many new functions and particular optical, electric, magnetic, or catalytic properties which could not been obtained from single nanoparticles.
磁性纳米复合粒子具有典型的核壳结构。
The magnetic nano-composite particle has a typical core-shell structure.
综述了乳化剂用量、核、中间层、壳、粒子粒径及粒径分布等对具有核壳结构的丙烯酸酯类共聚物性能的影响。
The quantity of emulsifier, core, middle phase, shell and the size and distribution of the particles affecting the properties of acrylate copolymer (acr) were reviewed with 19references.
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。
The research on how to put these core-shell nanocomposites into new nano devices application will be a focus in the future.
透射电镜分析表明,复合粒子呈核壳结构,聚氨酯乳胶基材的粒径大小对复合粒子的形貌有较大影响。
TEM analysis indicates that the composite particles show a core-shell structure, and the particle sizes of PU substrate have great influence on the morphology of composite particles.
结果表明,合成的共聚物为核壳结构的乳胶粒子,此核壳聚合物形成的涂膜具有较好的耐碱性、耐水性和卓越的贮存稳定性。
The results indicate that the latex of copolymer prepared by this method is core-shell structure, and the coating of this core-shell polymer has better alkali-resistance, water resistance and excel...
结果表明,合成的共聚物为核壳结构的乳胶粒子,此核壳聚合物形成的涂膜具有较好的耐碱性、耐水性和卓越的贮存稳定性。
The results indicate that the latex of copolymer prepared by this method is core-shell structure, and the coating of this core-shell polymer has better alkali-resistance, water resistance and excel...
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