1) core-shell all acrylic emulsion
核壳纯丙乳液
1.
This article has discussed the influence of particle morphology of core-shell all acrylic emulsion on T_g and MFT and the effects of monomer varieties,core-shell ratio and design on performauce of emulsion.
研究了核壳纯丙乳液聚合中乳液结构对其玻璃化转变温度、最低成膜温度的影响,以及单体种类、核壳比、核壳设计Tg对乳液性能的影响,还通过TEM、AFM研究了乳液颗粒形态及核壳乳液成膜后的表面形态。
2) styrene/acrylic emulsion with a core/shell structure
苯丙核/壳乳液
4) organosilion-acrylate core-shell emulsion
硅/丙核壳乳液
1.
The polymerization of organosilion-acrylate core-shell emulsion was studied by using this technique for the first time.
用荧光探针(芘)法测定了十二烷基硫酸钠(SDS)、烷基酚聚氧乙烯醚(OP-10),以及复配乳化剂的临界胶束浓度(CMC),并首次把荧光探针技术应用到硅/丙核壳乳液聚合反应的研究中。
5) pure acrylic emulsion
纯丙乳液
1.
Reseacrh on synthesis of pure acrylic emulsion for coating;
涂料用纯丙乳液合成的研究
2.
A pure acrylic emulsion with "soft core and hard shell" core-shell structure has been prepared by seed emulsion polymerization in semi-continuous process.
利用半连续法种子乳液聚合工艺制备具有软核硬壳核壳结构的纯丙乳液,并用红外光谱、激光粒度测试仪、高倍显微镜等对乳液的性质与结构进行表征。
6) Acrylic emulsion
纯丙乳液
1.
The influence of formula factors on smudge resistance of paint is studied that involves various kinds of pigment and filling agent and their volume concentration changes for different Tg styrene-acrylic and acrylic emulsions which are comparatively good in smudge resistance, to make investigation of relationship between formula factors of paint and smudge resistance of paint film.
对耐沾污性相对优良的不同Tg的苯丙和纯丙乳液,进行颜、填料体积浓度变化和颜、填料种类变化的涂料配方,对涂料沾污行为影响的研究,以考察涂料配方因素与涂膜耐沾污性能的关系。
2.
The ETM graph of hybrid emulsion reveals that the microstructure of hybrid polymer in acrylic/nano-Mg(OH)2 emulsion is core-shell structure that takes nano-Mg(OH)2 as core particle,and acrylic emulsion macromole as shell.
研究纳米Mg(OH)2杂化纯丙乳液的合成方法;确定纳米Mg(OH)2杂化纯丙乳液的配方;制备纳米Mg(OH)2杂化纯丙乳液。
3.
The synthesis conditions and process,main effective factors of hydrid acrylic emulsion/nano ZnO were studied,and this emulsion with considerable stability has been prepared.
研究ZnO纳米材料杂化纯丙乳液合成的条件、主要影响因素和合成方法 ,制备稳定性良好的纳米ZnO杂化乳液。
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。
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。
参考词条