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用金属茂催化聚合氧乙烯基丙烯及其聚合物性能
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作者 阎卫东 戴红霞 +1 位作者 胡树文 胡友良 《大庆石油学院学报》 EI CAS 北大核心 1999年第4期27-29,共3页
用茂金属Et(Ind)2ZrCl2和助催化剂MAO催化聚合了用甲氧基封端保护的侧链含氧原子的烯烃———[甲氧基-低聚(氧乙烯基)]-g-丙烯(MOP).用IR和1H-NMR表征了所得到的单体(MOP)和相应聚合物(PMOP).探讨了主要聚合条件对聚合反应的影响,以及P... 用茂金属Et(Ind)2ZrCl2和助催化剂MAO催化聚合了用甲氧基封端保护的侧链含氧原子的烯烃———[甲氧基-低聚(氧乙烯基)]-g-丙烯(MOP).用IR和1H-NMR表征了所得到的单体(MOP)和相应聚合物(PMOP).探讨了主要聚合条件对聚合反应的影响,以及PMOP与锂盐共混后的电导行为.研究表明,茂金属MAO可以催化用甲氧基封端保护的含氧原子烯烃的聚合,在MAO与Et(Ind)2ZrCl2物质的量比为1600,反应2h,60℃真空干燥后,该含氧乙烯基支链丙烯的聚合活性为8.2×104g(mol·h).氧乙烯基丙烯均聚物和甲氧基-低聚(聚氧乙烯)磺酸锂共混物的配比不同,其电导率在10-4.6~10-7.5S·cm-1之间. 展开更多
关键词 茂金属 氧乙烯基丙烯 电导率 聚合 催化 高聚物
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Effects of extended anionic surfactants on the wettability of polytetrafluoroethylene interface
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作者 Qi Sun Zhengrong Zhao +2 位作者 Zhicheng Xu Lei Zhang Lu Zhang 《日用化学工业(中英文)》 北大核心 2025年第8期949-960,共12页
In order to explore the mechanism of improving the surface wettability of low-energy polytetrafluoroethylene(PTFE)by new extended surfactants,five kinds of extended anionic surfactants with different numbers of oxypro... In order to explore the mechanism of improving the surface wettability of low-energy polytetrafluoroethylene(PTFE)by new extended surfactants,five kinds of extended anionic surfactants with different numbers of oxypropylene(PO)and oxyethylene(EO),octadecyl-(PO)_(m)-(EO)_(n)-sodium carboxylate(C_(18)PO_(m)EO_(n)C,m=5,10,15,n=5,10,15),were studied.The surface tension and contact angle of C_(18)PO_(m)EO_(n)C solution with different concentrations were measured,and the adhesion tension,PTFE-water interfacial tension,and adhesion work were calculated.It was found that the extended surfactant molecules adsorb on the surface of the solution and the PTFE-liquid interface simultaneously when the concentration is lower than the critical micelle concentration(cmc),and there was a linear relationship between surface tension and adhesion tension.The adsorption amount of C_(18)PO_(m)EO_(n)C at the PTFE-water interface was significantly lower than that on the surface of the solution.As the concentration increases above cmc,semi-micelle aggregates on the surface of PTFE are formed by C_(18)PO_(m)EO_(n)C molecules through hydrophobic interaction,and the hydrophilic group faces the solution to modify the surface of PTFE with high efficiency. 展开更多
关键词 WETTABILITY contact angle extended surfactant polypropylene oxide polyethylene oxide
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Synthesis and properties of acrylate latex modified by vinyl alkoxy siloxane 被引量:9
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作者 张心亚 孙志娟 +3 位作者 黄洪 黎永津 蓝仁华 陈焕钦 《Journal of Central South University of Technology》 EI 2007年第5期666-672,共7页
Acrylate latex modified by vinyl triisopropoxy silane (C-1706) was synthesized by seeded emulsion polymerization with anionic emulsifier sodium dodecyl sulphonate(SDS) and nonionic emulsifier OP-10 as the multiple emu... Acrylate latex modified by vinyl triisopropoxy silane (C-1706) was synthesized by seeded emulsion polymerization with anionic emulsifier sodium dodecyl sulphonate(SDS) and nonionic emulsifier OP-10 as the multiple emulsifiers at (78±2) ℃. The effects of different factors, such as the emulsifier, C-1706 monomer and its feeding manner on the properties of acrylate latex modified by C-1706 were investigated. The particle size distribution and the structure, the configuration, the weather durability and stain resistance of copolymer latex were characterized by particle size analyzer, Fourier transform infrared spectroscopy (FT-IR), transmission electron microscope(TEM), scanning electron microscope(SEM) and ultraviolet aging instrument respectively. The results show that SDS to OP-10 as multiple emulsifiers can lead to coordinated efficiency, the optimal emulsifier dosage is 2.4%?3.2%(mass fraction), and the mass ratio of SDS to OP-10 is 1?1? 1?2. The seeded emulsion polymerization can effectively introduce a organic-siloxane bonding in a macromolecule inter polymer, and the obtained acrylate latex modified by organic-siloxane possesses narrow distribution of particle size with mean diameter of 51.8?76.6 nm and has the excellent properties in weather durability and stain-resistance especially. 展开更多
关键词 vinyl alkoxy siloxane acrylate latex emulsion polymerization SYNTHESIS characterization
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