高疏水表面的聚偏氟乙烯中空纤维膜制备方法研究
作者:张如意,吕晓龙,汪洋,武春瑞,陈华艳,贾悦,王暄,高启君
单位: 中空纤维膜材料与膜过程国家重点实验室培育基地,生物化工研究所,天津工业大学,天津300387
关键词: 聚偏氟乙烯;相转化;疏水改性;接触角;疏水膜
DOI号:
分类号: TQ028.8
出版年,卷(期):页码: 2015,35(5):13-17

摘要:
本文采用稀溶液相转化法制备出小粒径的聚偏氟乙烯(PVDF)粒子,然后通过超滤方法将其涂覆在PVDF基膜表面上,得到了高疏水性表面的PVDF疏水膜. 初步考察了凝固浴组成和凝固浴温度等稀溶液相分离条件对PVDF粒子的形成以及疏水膜性能的影响. 结果表明,通过稀溶液相转化方法可以在基膜表面构建微纳米结构,凝固浴组成对改性疏水膜的表面微纳米结构影响很大,以质量分数为60% DMAc水溶液为凝固浴条件下得到的疏水膜接触角最高,达到144.9 °,较基膜的接触角80 °显著提高;凝固浴组成对疏水膜的透气系数和透水压力也有影响,透水压力由0.24 MPa提升至0.28 MPa;凝固浴组成对改性后疏水膜的孔径没有明显影响;随着凝固浴温度的升高,接触角呈增大趋势.
 
Dilute solution phase inversion method was used in this paper to prepare nano-size particlesof polyvinylidene fluoride(PVDF), which were then coated on the surface of PVDF hollow fiber membrane to form a highly hydrophobic surface ofPVDF membraneby ultrafiltration.The effects of the composition of the coagulation bath, the temperature ofthe coagulationbath and other conditions of the dilute solution phase separation on the hydrophobicity of modified PVDF membrane were investigated.Theresults showed thatthe surface with a micro and nano structures could be constructed on the support membrane by ultrafiltrating the nano-size particles prepared withthe dilute solution phase inversion method and its property was affected greatly by the composition of the coagulation bath, and when the coagulation bathcomposition was 60% DMAc aqueous solution,the prepared particles had the best nanostructure, the contact angle of hydrophobic membrane prepared with these particles was highest, reaching 144.6 °which was muchhigher than the 80 °contact angle of the support membrane; the gaspermeability coefficientand the water permeability pressure ofthehydrophobic membrane were also affected by the coagulation bath composition, thewaterpermeable pressure increased from 0.24 MPa to 0.28 MPa; the composition of the coagulation bath had noobvious effect on the pore size of the hydrophobic membrane; The contact anglesof the hydrophobic membraneswere an increasing trendwiththe coagulationtemperatureincrease, which were made from the particles prepared with different coagulation temperature.
 

基金项目:
国家自然科学基金项目(21176188,21106100)

作者简介:
张如意(1988-),男,河北衡水人,硕士,从事膜材料研究.*通讯作者,E-mail:luxiaolong@263.net

参考文献:
[1] Shirtcliffe N J, McHale G, Atherton S, et al. An introduction to superhydrophobicity [J]. Advances in Colloid and Interface Science, 2010, 161:124-138.
[2] Wang S, Li Y P, Fei X L, et al. Preparation of a durable superhydrophobic membrane by electrospinning poly(vinylidene fluoride) (PVDF) mixed with epoxy–siloxane modified SiO2 nanoparticles: A possible route to superhydrophobic surfaces with low water sliding angle and high water contact angle[J]. Journal of Colloid and Interface Science, 2011, 359:380–388.
[3] 谢永元, 周勇亮, 俞小眷, 等. 以砂纸为模板制作聚合物超疏水表面[J]. 高等化学学报, 2007, 28(8):1577-1580.
[4] Huang W H, Lin C S. Robust superhydrophobic transparent coatings fabricated by alow-temperature sol–gel process [J]. Applied Surface Science, 2014, 305:702-709.
[5] Sasan R, Iraj M, Rostam M,et al. One-step chemical vapor deposition and modification of silica nanoparticles atthe lowest possible temperature and superhydrophobic surface fabrication[J] . Chemical Engineering Journal, 2014, 252:11-16.
[6] Manas KS, Kausik B, Fuen H,et al. Design of an outstanding super-hydrophobic surface by electro-spinning[J]. Applied Surface Science, 2011, 257:7003-7009.
[7] Jisr R M, Rmaile H H, Schlenoff J B. Hydrophobic and Ultrahydrophobic Multilayer Thin Films from Perfluorinated Polyelectrolytes[J]. Angewandte ChemieInternational Edition. 2005, 44(5):782-785.
[8] 卓震. 聚偏二氟乙烯(PVDF)特性及其在过程工业中应用[J]. 腐蚀科学与防护技术, 2004, 16(2):118-120.
[9] Kang G D, Cao Y M. Application andmodification of poly(vinylidene fluoride)(PVDF) membranes–A review[J]. Journal of Membrane Science, 2014, 463:145-165.
[10] 林汉阳, 武春瑞, 吕晓龙. 聚偏氟乙烯膜的超疏水改性研究[J]. 膜科学与技术, 2010, 30(2):39-44.
[11] 王贤荣, 吕晓龙, 刘嘉铭, 等. 聚偏氟乙烯超疏水分离膜的制备[J]. 功能材料, 2013, 43(8):1056-1060.
[12] 刘嘉铭, 吕晓龙, 武春瑞, 等. 聚偏氟乙烯中空纤维膜表面疏水化制备方法研究[J]. 功能材料, 2013, 44(14):2101-2105.
[13]吕晓龙. 中空纤维多孔膜性能评价方法探讨[J]. 膜科学与技术, 2011, 31(2): 1-6.

服务与反馈:
文章下载】【加入收藏

《膜科学与技术》编辑部 地址:北京市朝阳区北三环东路19号蓝星大厦 邮政编码:100029 电话:010-64426130/64433466 传真:010-80485372邮箱:mkxyjs@163.com

京公网安备11011302000819号