CONCLUSION The hydrophilic starch microgel can be developed as novel drug carrier.
结论所制亲水性淀粉微凝胶可望开发为新型药物载体。
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。
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。
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 present invention relates to a microgel latex with modified hydroxyl group and a property of stable storage.
本发明涉及一种存储稳定的。羟基改性的微凝胶体胶乳。
Property of microgel may be varied in a broad range by changing its composition, structure, crosslinking density and particle size.
阐述了微粒凝胶的性质因其组成、结构、化学交联及微粒大小不同而有很大变化。
Transimission electron microscopy and particle size analysis were used to analyses self-stable function of PEG and the microgel size.
用电子透射显微镜及粒度分析仪分析了凝胶的形态与粒径,观察到了聚乙二醇的自动空间稳定现象。
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。
Objective To detect DNA damage in human peripheral lymphocytes of workers exposed to vinyl chloride with microgel single cell electrophoresis(MGE).
目的探讨用单细胞微量凝胶电泳测试方法(MGE)检测氯乙烯对人体外周血淋巴细胞DNA损伤。
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。
Since microgel flooding involves complex physical and chemical changes, how to achieve physical and chemical parameters become very important during numerical simulation.
由于微凝胶驱涉及复杂的物理化学变化,在进行数值模拟时,如何求取物理化学参数变得很重要。
The invention relates to a composition containing at least one specific organic, cross-linkable medium and at least one microgel that is not cross-linked by energy-rich beams.
本发明涉及一种含有至少一种特定的有机可交联的介质和至少一 种未用高能辐射交联的微粒凝胶的组合物。
The progress on the synthetic technology, properties, characteristic methods and application of Temperature- Sensitive microgel of poly (N-isopropylacrylamide) has been briefly reviewed.
简要阐述了温敏性微凝胶―聚N-异丙基丙烯酰胺微凝胶的合成技术、性能、表征方法及应用等方面的研究进展。
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。
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。
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