醋酸纤维素氨基甲酸酯膜材料的制备与表征
作者: 青岛科技大学化工学院,青岛 266042
单位: 青岛科技大学化工学院,青岛 266042
关键词: 醋酸纤维素;尿素;醋酸纤维素氨基甲酸酯;取代度;成膜性能
DOI号:
分类号: O636.1+1
出版年,卷(期):页码: 2013, 33(3):59-63

摘要:

利用尿素对醋酸纤维素(CA)进行浸泡预处理,然后移入邻二甲苯惰性体系中进行反应。探讨合成过程中的影响因素,结果如下所示:预处理过程中尿素的浓度为25%,预处理温度55℃,预处理时间5h,反应时间3.5h时,所得醋酸纤维素氨基甲酸酯(CAC)取代度可达到0.1。FT-IR表征可以证明成功合成出了CAC。用制备的CAC进行铸膜,CAC膜的拉伸强度及水通量要优于CA膜,同时研究得出随着取代度的升高,CAC膜的拉伸强度及水通量呈上升趋势。

 Using urea to cellulose acetate (CA) for soaking pretreatment, and then transfer CA into o-xylene inert system for reaction. These factors have been explored at the process of synthesis and the results were shown as follows: Pretreatment concentration was 25%, pretreatment temperature was 55 ℃, pretreatment time was 5 h, and the reaction time was 3.5 h. On this condition, the degree of substitution of CAC was able to be 0.1. FT-IR characterization proved that the CAC was successful synthetized. Use the CAC and CA for casting film, the tensile strength and water flux of CAC membrane is better than that of CA membrane. The study concluded that with the degree of substitution increases, CAC film tensile strength and water flux shows increase trend.

基金项目:
国家自然科学基金项目(No.21176131).

作者简介:

 Using urea to cellulose acetate (CA) for soaking pretreatment, and then transfer CA into o-xylene inert system for reaction. These factors have been explored at the process of synthesis and the results were shown as follows: Pretreatment concentration was 25%, pretreatment temperature was 55 ℃, pretreatment time was 5 h, and the reaction time was 3.5 h. On this condition, the degree of substitution of CAC was able to be 0.1. FT-IR characterization proved that the CAC was successful synthetized. Use the CAC and CA for casting film, the tensile strength and water flux of CAC membrane is better than that of CA membrane. The study concluded that with the degree of substitution increases, CAC film tensile strength and water flux shows increase trend.

参考文献:

[1]叶代勇, 黄洪, 傅和青等. 纤维素化学研究进展. 化工学报, 2006, 57(8): 1782-1791.
[2]Han J S, Rowell J S. Chemical Composition of Fibers in Paper and Composites from Agro-Based Resources. London: CRC Press, 1996: 832134.
[3]林卫江, 黄科林, 彭小玉等. 纤维素醋酸酯合成研究进展[J]. 企业科技与发展: 2010, 287: 4-7.
[4]Calvin Woodings. Regenerated Cellulose Fibres[M]. Cambridge: Woodhead Publishing, 2001.
[5]浙江丝绸工学院, 苏州丝绸工学院. 织物组织与织纹学(下册)[M]. 北京: 中国纺织出版社, 1997.
[6]陶美玲. 新型合成纤维醋酸纤维的生产和应用[J]. 四川化工, 2006, 9(1): 28-30.
[7]邱建华,张延武等. 表面化学法改性醋酸纤维素微滤膜[J]. 广西师范大学学报(自然科学版), 2011, 29(2): 65-70.
[8]戴清文. 聚电解质表面修饰聚丙烯微孔膜的研究[D]. 杭州: 浙江大学材料与化工学院, 2004.
[9]王宏琳,杨大令,张守海等. 分离丙烯/丙烷的超薄聚电解质中空纤维复合膜的制备[J]. 应用化学, 2007, 24( 3) : 241- 244.
[10]王渊龙. 氨基甲酸酯法绿色纤维素纤维的研究[D]. 天津: 天津工业大学, 2001: 45-50
[11]何进,梁运祥. 浅谈凯氏定氮法[J]. 陕西粮油科技,1996, 21(3): 52-53
[12]Schmidt Matthias, Peinemann Klaus-Viktor. Composite Nanofiltration Membrane[P]. EP0865309, 1998-09-23.
[13]Uragami T, Sugitani Y, Sugihara M. Studies on syntheses and permeabilities of special polymer membranes: 33. Permeation behaviour of aqueous alcohol solution through cellulose membranes, Polymer. 1982, 23: 192-196.
[14]吴金克,王彬. 超滤膜截留性能测定方法的研究[J]. 化学工程师, 2000,76: 3-5.
[15]魏国汉,戴生敏等.醋酸纤维素氨基甲酸醋的合成及其膜性能的研究[J].纤维素科学与技术,1993,1(4): 53-59.
[16]哈丽丹•买买提,努尔买买提,吾满江•艾力.纤维素氨基甲酸酯的合成[J]. 高分子材料科学与工程, 2005, 21(4): 102-104.

服务与反馈:
Download】【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:010-80492417/010-80485372 传真:010-80485372邮箱:mkxyjs@163.com

京公网安备11011302000819号