核壳型乳液粒子,latex particle,在线英语词典,英文翻译,专业英语

1) latex particle

核壳型乳液粒子

2) core-shell

核壳

Preparation of reduced symmetrical SiO_2/Au core-shell nanoparticles and their plasmonic properties;

对称性降低的SiO_2/Au核壳结构纳米粒子的制备及其表面等离子共振特性

The preperation of core-shell nanopowder material by one-step hydrothermal method;

一步水热法制备核壳型纳米粉体研究

Development of Core-shell Emulsion Polymerization;

核壳型乳液聚合研究进展

3) core-shell

核-壳

High concentration(as high as 40 mg/mL) of core-shell PMAA/HEC polymeric nanoparticles are prepared via one-step template polymerization by using hydroxyethyl cellulose(HEC) as the template,and methacrylic acid(MAA) as the monomer.

以羟乙基纤维素(HEC)为大分子模板,选用甲基丙烯酸(MAA)单体,通过模板聚合一步反应,制备了较高浓度(40 mg/mL)的核-壳结构聚合物纳米微球溶液。

The mechanism of core-shell emulsion polymerization was brifly introduced,which included grafting,interpenetrating network formation and ionic bonding.

简要介绍了核-壳型乳液聚合机理,包括接枝机理,互穿网络聚合机理及离子键合机理。

The mechanical property of epoxy resin modified with silicone particles and core-shell parti.

以此为种子乳液进一步反应,使甲基三甲氧基硅烷(MTMS)在种子乳胶粒表面反应形成硅树脂壳层,得到硅树脂包覆硅橡胶的核-壳乳胶粒子。

4) core/shell

核/壳

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.

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。

5) Core/shell

核壳

PSA@Fe3O4 doped CdS core/shell nanocomposite was prepared for the first time by a simple wet-chemistry route.

用简单的湿化学方法首次制备了PSA@Fe3O4doped CdS核壳结构复合微球。

The core/shell polyurethane-polyacrylate emulsion(PUA) was synthesized by seed emulsion polymerization with using waterborne PU as the seed emulsion and PA as the monomer.

以水性聚氨酯(PU)为种子乳液,以丙烯酸酯(PA)为聚合性单体,采用种子乳液聚合法合成核壳结构聚氨酯-聚丙烯酸酯乳液(PUA)。

6) core-shell particles

核壳粒子

Preparation and characterization of nano-Ag /PS core-shell particles;

纳米银/聚苯乙烯核壳粒子的制备与表征

P(APU-BA)/PMMA core-shell particles were prepared by polymerization of self-made acrylate polyurethane(APU) and seed emulsion.

采用自制的丙烯酸酯化聚氨酯(APU)和种子乳液聚合的方法,制备了一种P(APU-BA)/PMMA型的核壳粒子。

Layer-by-layer (LbL) assembled core-shell particles are currently studied immensely due to their advantages of tailored dimensions and compositions.

本文综述了基于层层自组装和胶体模板以及采用各种化学和物理方法直接除去核制备磁性复合核壳粒子和空腔球体。

参考词条

核壳共聚核壳型核/壳结构核壳形态核壳技术核壳乳液磁性核壳核-壳技术校验周期三维弹性动力学

补充资料：核壳乳液聚合

分子式：
CAS号：

性质：又称种子(乳液)聚合，两阶段(或多阶段)乳液聚合，核-壳乳液聚合或复合乳液聚合。为了得到颗粒较大的聚合物，在乳液聚合中，可先加入乳液作为种子，这样在聚合过程中，单体可在加入的种子上继续聚合，而不形成新的微粒，因此可以得到颗粒较大的聚合物，这种聚合称为种子聚合。首先，通过常规的(一般为间歇式)乳液聚合或乳液共聚合制备种子胶乳，然后在种子胶乳存在下进行另一种单体或单体混合物的聚合。是新近发展起来的一种乳液聚合方法。主要用来合成各种具有不同组分以及不同形态特征的复合聚合物胶乳。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引核/壳技术核壳结构 “核-壳”结构核-壳粒子核-壳结构核壳材料

1) latex particle 核壳型乳液粒子 2) core-shell 核壳 1. Preparation of reduced symmetrical SiO_2/Au core-shell nanoparticles and their plasmonic properties; 对称性降低的SiO_2/Au核壳结构纳米粒子的制备及其表面等离子共振特性 2. The preperation of core-shell nanopowder material by one-step hydrothermal method; 一步水热法制备核壳型纳米粉体研究 3. Development of Core-shell Emulsion Polymerization; 核壳型乳液聚合研究进展 3) core-shell 核-壳 1. High concentration(as high as 40 mg/mL) of core-shell PMAA/HEC polymeric nanoparticles are prepared via one-step template polymerization by using hydroxyethyl cellulose(HEC) as the template,and methacrylic acid(MAA) as the monomer. 以羟乙基纤维素(HEC)为大分子模板,选用甲基丙烯酸(MAA)单体,通过模板聚合一步反应,制备了较高浓度(40 mg/mL)的核-壳结构聚合物纳米微球溶液。 2. The mechanism of core-shell emulsion polymerization was brifly introduced,which included grafting,interpenetrating network formation and ionic bonding. 简要介绍了核-壳型乳液聚合机理,包括接枝机理,互穿网络聚合机理及离子键合机理。 3. The mechanical property of epoxy resin modified with silicone particles and core-shell parti. 以此为种子乳液进一步反应,使甲基三甲氧基硅烷(MTMS)在种子乳胶粒表面反应形成硅树脂壳层,得到硅树脂包覆硅橡胶的核-壳乳胶粒子。 4) core/shell 核/壳 1. 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. 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。 5) Core/shell 核壳 1. PSA@Fe3O4 doped CdS core/shell nanocomposite was prepared for the first time by a simple wet-chemistry route. 用简单的湿化学方法首次制备了PSA@Fe3O4doped CdS核壳结构复合微球。 2. The core/shell polyurethane-polyacrylate emulsion(PUA) was synthesized by seed emulsion polymerization with using waterborne PU as the seed emulsion and PA as the monomer. 以水性聚氨酯(PU)为种子乳液,以丙烯酸酯(PA)为聚合性单体,采用种子乳液聚合法合成核壳结构聚氨酯-聚丙烯酸酯乳液(PUA)。 6) core-shell particles 核壳粒子 1. Preparation and characterization of nano-Ag /PS core-shell particles; 纳米银/聚苯乙烯核壳粒子的制备与表征 2. P(APU-BA)/PMMA core-shell particles were prepared by polymerization of self-made acrylate polyurethane(APU) and seed emulsion. 采用自制的丙烯酸酯化聚氨酯(APU)和种子乳液聚合的方法,制备了一种P(APU-BA)/PMMA型的核壳粒子。 3. Layer-by-layer (LbL) assembled core-shell particles are currently studied immensely due to their advantages of tailored dimensions and compositions. 本文综述了基于层层自组装和胶体模板以及采用各种化学和物理方法直接除去核制备磁性复合核壳粒子和空腔球体。参考词条核壳共聚核壳型核/壳结构核壳形态核壳技术核壳乳液磁性核壳核-壳技术校验周期三维弹性动力学补充资料：核壳乳液聚合分子式： CAS号：性质：又称种子(乳液)聚合，两阶段(或多阶段)乳液聚合，核-壳乳液聚合或复合乳液聚合。为了得到颗粒较大的聚合物，在乳液聚合中，可先加入乳液作为种子，这样在聚合过程中，单体可在加入的种子上继续聚合，而不形成新的微粒，因此可以得到颗粒较大的聚合物，这种聚合称为种子聚合。首先，通过常规的(一般为间歇式)乳液聚合或乳液共聚合制备种子胶乳，然后在种子胶乳存在下进行另一种单体或单体混合物的聚合。是新近发展起来的一种乳液聚合方法。主要用来合成各种具有不同组分以及不同形态特征的复合聚合物胶乳。说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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