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摘要:通过静电纺丝制备纳米纤文材料是在过去十年中是世界上材料科学和技术的最重要的学术和技术活动。由于其制造简单的,纺纱的成本低,纺纱的材料各种各样,可控制的过程等,已成为主要能够有效纺制纳米纤文材料的方式之一。本论文为通过静电纺丝法制备全氟磺酸(PFSA)- 聚醚砜(PES)- 聚环氧乙烷 - 聚环氧丙烷 - 聚环氧乙烷三嵌段共聚物(P123)的纳米纤文,比较不同含量的P123对纳米纤文的影响。通过进行黏度、表面张力、机械强度与BET等表征和测试来研究和考察纳米纤文膜的各个性质,以及使用乙酸乙酯的合成反应的研究磺酸基活性关系的表面上的纤文结构。经由各个测试的结果表明,膜具有良好的溶胀性能,最高可达到20%以上;BET多点比表面积均在10m2/g以上,则该膜的致密度不高;催化性能实验中转化率可在20%以上,这说明膜的催化性能是较好的。24353
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毕业论文关键字:纳米纤文材料;静电纺丝;P123;全氟磺酸
Effects of P123 on nanofiber features membrane's structure and performance
Abstract: Be prepared by electrospinning, nanofiber material is the most important academic and technical activities over the last decade the world of materials science and technology. Because of its simple manufacturing, low spinning cost, spinning a wide variety of materials, controlled process, etc., has become one of the main ways the effective preparation of nano fiber material. Nanofibers of perfluorosulfonic acid (PFSA) - polyethersulfone (PES) - polyethylene oxide - polypropylene oxide - polyethylene oxide triblock copolymer (P123) were prepared by electrospinning method from PFSA - PES - P123 , comparison of the effects of different levels of P123 for nanofibers. By performing the inpidual nature of the viscosity, surface tension, and such mechanical strength and BET characterization studies and tests to examine nanofiber film, and use of ethyl acetate synthesis reaction investigated fiber structure on the surface of sulfonic acid groups active relationship. From the results of various tests showed that a film having good swelling properties, up to more than 20%; BET multi-point were 10m2 / g or more, the film density is not higher than the surface area; catalytic performance in the conversion of the experiment more than 20%, indicating that the catalytic properties of the film are preferred.
Key words: Nanofibers;electrospinning;P123;perfluorosulfonic acid
目 录
1 绪论 1
1.1 静电纺丝技术 1
1.1.1 静电纺丝技术简介 1
1.1.2 静电纺丝技术原理 2
1.1.3 静电纺丝技术历史 2
1.2 静电纺丝参数的影响 6
1.3 纳米纤文的结构形态 8
1.4 P123简介 9
1.5 纳米纤文的应用 9
1.6 本文主要研究内容 10
2 实验部分 11
2.1 实验试剂和仪器 11
2.1.1 实验主要原料和试剂 11
2.1.2 主要设备和仪器 11
2.2 实验内容及装置 12
2.2.1 纳米纤文膜的制备 12
2.2.2 乙酸乙酯催化反应性能的测试 13
2.3 性能测试与表征 14
2.3.1 主体密度 14
2.3.2 孔隙率 15
2.3.3 几何溶胀性能 15
2.3.4 催化性能测试 15
2.3.5 接触角 15
2.3.6 BET 16
2.3.7 表面张力 16
2.3.8 粘度 16
2.3.9 机械强度 16
2.3.10 电导率 16