聚酯纤维节能减排型染色加工技术的概述
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摘要
介绍超临界CO_2染色技术、分散染料微胶囊染色技术、分散染料载体染色技术、本体染色技术、原位矿化染色技术、真空升华染色技术和超声波加工染色技术等新型染色技术在聚酯纤维染色中的应用,并对各种染整技术的优缺点进行总结。结果显示,目前新型聚酯纤维染色技术由于种种限制没有得到推广和应用,但是新型环保染色技术一定是未来的发展趋势;同时,随着数字化技术的发展,散墨印染技术的不断应用,聚酯纤维印染工艺也走向数字化印染的时代。
The application of novel dyeing technology in polyester fiber dyeing, such as supercritical CO_2 dyeing technology, disperse dyes microcapsule dyeing technology, disperse dyes carrier dyeing technology, bulk dyeing technology, in situ mineralization dyeing technology, vacuum sublimation dyeing technology and ultrasonic processing dyeing technology were introduced, and the advantages and disadvantages of these dyeing and finishing technology were summarized. The results showed that although the novel dyeing technology of polyester fiber has not been popularized and applied due to various limitations, the new environmental dyeing technology will be the development trend. At the same time, polyester fiber dyeing process also went to digital dying and printing erawith the development of digital technology and the wide application of ink printing and dyeing technology.
The application of novel dyeing technology in polyester fiber dyeing, such as supercritical CO_2 dyeing technology, disperse dyes microcapsule dyeing technology, disperse dyes carrier dyeing technology, bulk dyeing technology, in situ mineralization dyeing technology, vacuum sublimation dyeing technology and ultrasonic processing dyeing technology were introduced, and the advantages and disadvantages of these dyeing and finishing technology were summarized. The results showed that although the novel dyeing technology of polyester fiber has not been popularized and applied due to various limitations, the new environmental dyeing technology will be the development trend. At the same time, polyester fiber dyeing process also went to digital dying and printing erawith the development of digital technology and the wide application of ink printing and dyeing technology.
引文
[1]白建红,崔淑玲.聚酯纤维环保型低温染色载体C的应用研究[J].印染助剂,2015,32(8):41-43.
[2]PASQUET V,PERWUELZ A,BEHARY N,et al.Vanillin,apotential carrier for low temperature dyeing of polyester fabrics[J].Journal of Cleaner Production,2012,43:20-26.
[3]赵航.聚酯纤维深度节水减排染色新技术的研发及应用[D].西安:西安工程大学,2016.
[4]冯建永,段亚峰,张龙江,等.超临界CO2技术及在纤维染色方面的应用[J].染整技术,2009,31(7):6-10.
[5]杨慕莹,刘静,章燕琴,等.涤纶织物超临界CO2染色中试研究[J].印染,2013,37(10):6-10.
[6]崔创龙,孙建平,龙家杰.超临界CO2流体染色对棉纤维的影响[J].印染,2014,38(5):1-4.
[7]王晓文,郑 昊,罗 艳,等.分散染料微胶囊/活性染料涤棉一浴法染色工艺初探[J].东华大学学报(自然科学版),2007,33(4):468-471.
[8]罗 艳,李 娴,钟 毅,等.超细涤纶微胶囊分散染料染色动力学及热力学参数[J].染料与染色,2010,47(4):17-20.
[9]关新杰,张海燕.微胶囊技术在染整工艺中的应用[J].染整技术,2011,33(6):8-11.
[10]汪娇宁,唐善发,纪俊玲.1-环己基-2-吡咯烷酮用于涤纶染色的初步探讨[J].印染助剂,2007,24(9):37-38.
[11]曹 颖.涤纶的新型环保载体染色[J].印染,2016,42(18):25-28.
[12]AHANI M,KHATIBZADEH M,MOHSENI M.Studying the thermodynamic parameters of disperse dyeing of modified polyethylene terephthalate sheets using hyperbranched polymeric additive as a nanomaterial[J].Journal of Industrial and Engineering Chemistry,2013(19):6.
[13]杨蕴敏,余晓华.聚酯纤维纺前着色技术的进展[J].合成纤维工业,2008,31(6):53-56.
[14]余晓华,杨蕴敏.国内外纺前着色技术及产品的新进展[J].纺织导报,2012,31(11):57-60.
[15]朱 松.原液着色涤纶纤维的生产技术现状及市场前景[J].现代纺织技术,2013,26(6):32-35.
[16]邢建伟,徐成书,沈兰萍,等.涤纶毛条分散染料原位矿化染色新技术[J].毛纺科技,2016,44(5):37-40.
[17]朱如华,李 亮.无水、节水染色技术进展[J].轻纺工业与技术,2013,42(2):44-45.
[18]SUN D,GUO Q,XIN L.Investigation into dyeing acceleration efficiency of ultrasound energy[J].Ultrasonics,2010,50(4-5):441-446.
[19]程浩南,何 源.超声波加工技术在纺织印染中的研究新进展[J].染整技术,2016,38(8):1-6.
[20]韩林畴.物理技术在涤纶染色中的研究进展[J].山东纺织科技,2008,57(1):53-56.
[2]PASQUET V,PERWUELZ A,BEHARY N,et al.Vanillin,apotential carrier for low temperature dyeing of polyester fabrics[J].Journal of Cleaner Production,2012,43:20-26.
[3]赵航.聚酯纤维深度节水减排染色新技术的研发及应用[D].西安:西安工程大学,2016.
[4]冯建永,段亚峰,张龙江,等.超临界CO2技术及在纤维染色方面的应用[J].染整技术,2009,31(7):6-10.
[5]杨慕莹,刘静,章燕琴,等.涤纶织物超临界CO2染色中试研究[J].印染,2013,37(10):6-10.
[6]崔创龙,孙建平,龙家杰.超临界CO2流体染色对棉纤维的影响[J].印染,2014,38(5):1-4.
[7]王晓文,郑 昊,罗 艳,等.分散染料微胶囊/活性染料涤棉一浴法染色工艺初探[J].东华大学学报(自然科学版),2007,33(4):468-471.
[8]罗 艳,李 娴,钟 毅,等.超细涤纶微胶囊分散染料染色动力学及热力学参数[J].染料与染色,2010,47(4):17-20.
[9]关新杰,张海燕.微胶囊技术在染整工艺中的应用[J].染整技术,2011,33(6):8-11.
[10]汪娇宁,唐善发,纪俊玲.1-环己基-2-吡咯烷酮用于涤纶染色的初步探讨[J].印染助剂,2007,24(9):37-38.
[11]曹 颖.涤纶的新型环保载体染色[J].印染,2016,42(18):25-28.
[12]AHANI M,KHATIBZADEH M,MOHSENI M.Studying the thermodynamic parameters of disperse dyeing of modified polyethylene terephthalate sheets using hyperbranched polymeric additive as a nanomaterial[J].Journal of Industrial and Engineering Chemistry,2013(19):6.
[13]杨蕴敏,余晓华.聚酯纤维纺前着色技术的进展[J].合成纤维工业,2008,31(6):53-56.
[14]余晓华,杨蕴敏.国内外纺前着色技术及产品的新进展[J].纺织导报,2012,31(11):57-60.
[15]朱 松.原液着色涤纶纤维的生产技术现状及市场前景[J].现代纺织技术,2013,26(6):32-35.
[16]邢建伟,徐成书,沈兰萍,等.涤纶毛条分散染料原位矿化染色新技术[J].毛纺科技,2016,44(5):37-40.
[17]朱如华,李 亮.无水、节水染色技术进展[J].轻纺工业与技术,2013,42(2):44-45.
[18]SUN D,GUO Q,XIN L.Investigation into dyeing acceleration efficiency of ultrasound energy[J].Ultrasonics,2010,50(4-5):441-446.
[19]程浩南,何 源.超声波加工技术在纺织印染中的研究新进展[J].染整技术,2016,38(8):1-6.
[20]韩林畴.物理技术在涤纶染色中的研究进展[J].山东纺织科技,2008,57(1):53-56.