microgel
英
美
n. 微凝胶;微粒凝胶
双语例句
- Synthesis of Se-Polymer Composite Microspheres by a Polymeric Microgel Template Method
硒-高分子复合微球的微凝胶模板法制备研究 - Synthesis and Fluorescence Properties of Thermo-Responsive Microgel Nanoparticles
温敏性微凝胶颗粒的制备与荧光性质研究 - Preparation of pH and temperature sensitive microgel via inverse suspension polymerization
反相悬浮聚合法制备pH及温度双重敏感微凝胶 - Preparation and properties of high concentration acrylic microgel dispersion
高浓度丙烯酸酯类微凝胶分散液的制备及性质 - The microgel particles the research team have developed are like'smart sponges'when dispersed in water.
微凝胶体研究小组已经研究出在水中分散的类似“漂亮的海绵”。 - Application of Fluorinated Reactive Microgel in Self-Stratifying Coatings
含氟反应性微凝胶在水性自分层涂料中的应用 - Preparation and Characterization of Poly ( acrylic acid)/ Poly ( N-isopropylacrylamide) Nanocomposite Microgel Synthesis and Solution Properties of AM/ AANa/ MBAA Copolymer
聚丙烯酸/聚(N-异丙基丙烯酰胺)纳米复合微凝胶的制备及表征丙烯酰胺-丙烯酸钠-N,N′-亚甲基双丙烯酰胺共聚物的合成及溶液性质 - Properties of self-crosslinked reactive acrylate microgel latex and its film
自交联反应性丙烯酸酯类微凝胶乳液及其涂膜的性能 - The influence of the neutralization degree of polyester, emulsifier, technology of emulsifying and level of polyester on the properties of microgel was discussed.
讨论了聚酯中和度、乳化剂、乳化工艺和聚酯用量对微凝胶性能的影响。 - Preparation and Characterization of P ( AM-co-MAA)/ ZnO Inorganic-Organic Composite Microspheres by Microgel Template Method
基于微凝胶模板法制备P(AM-co-MAA)/ZnO有机-无机复合微球的研究 - The microgel was prepared by the copolymerization of crosslinking agent A and chloroprene and the sol was prepared by emulsion polymerization.
以氯丁二烯与交联剂A共聚制备微凝胶;用乳聚法制备溶胶。 - Dispersing silylate terminated polyurethane in water, the silane end groups of the polymer underwent hydrolysis followed by condensation to form a stable nanometer size aqueous polyurethane microgel.
将端基为可水解硅氧烷的聚氨酯羧基离子体分散于水中,获得水基聚氨酯分散体。 - The application characteristics of reactive microgel in pigment printing binders has been studied.
所合成的微凝胶可提高织物印花黏合剂触变性、流平性、膜的机械性能、牢度。 - Research Progress on Temperature-Sensitive Microgel
温敏性微凝胶研究进展 - Preparation of core-shell composite microspheres by the polymer microgel template method
核/壳结构复合微球的高分子微凝胶模板法制备研究 - Synthesis of reactive polymer microgel with core shell structure
核壳结构反应性聚合物微凝胶的合成 - Determination of microgel in styrene-butadiene rubber
丁苯橡胶中微凝胶的测定 - Also, the PEG-g-PAAc microgel has excellent pH-responsive and exhibit a swelling behavior in acetone or water.
同时在不同的pH条件下,得到的凝胶颗粒具有完全不同的溶胀性能,表明该微凝胶具有明显的pH响应性;并且其在水和丙酮等溶剂中都具有良好的溶胀性能。 - The influences of microgel on the application, film-forming property and dry film properties are discussed.
讨论了微粒凝胶对涂料施工、成膜性能的影响以及应用。 - The gelling process of HPAM/ Cr3+ microgel system in static state and shearing state was compared. The effect of rate of shearing, polymer concentration, temperature and time of slaking of solution to the gelling of microgel were studied.
对HPAM/Cr3+微凝胶体系在静态和剪切状态下成胶过程进行了对比,并且考察了剪切速率、聚合物浓度、温度及聚合物溶液熟化时间对微凝胶成胶的影响。 - Study on the Acrylate Microgel Emulsion
丙烯酸酯微凝胶乳液的研究 - Synthesis and characterization of microgel core-shell polystyrene microparticles
核-壳结构微交联聚苯乙烯微粒的合成与表征 - The effects of polyacrylamide structure on the properties of microgel system 248 from both.
聚丙烯酰胺的分子结构对微凝胶体系性能的影响248体系。 - RESULTS The synthesized microgel was hydrophilic and had microporous network structure.
结果合成的微凝胶具有亲水性和微孔网络结构。 - Firstly, the principle of the microgel formation and stabilization has been appraised.
首先概括了微凝胶形成机理与稳定机制; - In addition, the preparation of aqueous starch microgel with aqueous solution as reaction environment has been studied. The results show that the important factors affecting the formation of starch microgel are surfactant content, concentration of starch and conversion efficiency of cross-linking reaction.
另外,本论文研究了用水溶液作为反应环境制备亲水性淀粉微凝胶,研究得到表面活性剂含量、淀粉液浓度及交联反应的转化率是影响淀粉微凝胶形成的主要因素。 - OBJECTIVE To synthesize starch the microgel and study its structure and properties.
目的合成淀粉微凝胶,研究所制微凝胶的结构和性能。 - At constant NaCl concentration, gelation time tg decreases with microgel concentration increasing.
在NaCl浓度保持恒定时,凝胶时间tg随微凝胶含量的增加而减小。 - Through some special technology, this thesis designed and prepared the functional microgel with new structure and the new block copolymer.
借助一些特殊的技术,本论文设计制备了具有新型结构的功能化微凝胶和嵌段聚合物,并检测了它们的性质。 - At constant microgel and NaCl concentration, tg decreases with temperature increasing.
在微凝胶和NaCl的浓度都恒定时,tg随温度的升高而降低。