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光纤涂料对保护光纤,稳定光纤传输性能具有重要作用,是通信光纤使用中不可缺少的重要组成部分。随着光纤的应用领域变得广泛、应用环境变得复杂,各种新型光纤涂料得到了突飞猛进的发展。采用有机氟、有机硅、聚氨酯以及环氧树脂等对固化原料进行有效改性是研究的热点。在固化方式上,利用混杂聚合方式有效地解决了单种聚合方式存在的不足。综述了近年来紫外光固化新型光纤涂料的国内外发展现状,并展望了其发展前景。
Abstract:Fiber coatings is important in the field of protecting fibre-optical and stabilizing itstransmission performance. It is an indispensable component in the use of optical fiber communication. Various of new fiber coatings have been developed rapidly when the application is widespreading and the application environment becames more complex. Using organic fluorine,organic silicone,polyurethane and epoxy resin on the materials for effective modification is a hotspot research.The utilization of hybrid aggregation method can effectively solve the single mode of polymerizationdeficiencies in the way of curing. Reviews the recent advance of UV-curable new type of optical fibercoating at home and abroad,and prospects its development.
[1]吴小松,史蒂文·罗伯特·施密德,蒂莫西·爱德华·毕晓普,等.配制光纤用可辐射固化超级涂料的方法[P].CN102548924A.2012.07.04.
[2]陈迪伟,姜胜斌,佘万能.紫外光固化光纤涂料概述[J].甘肃石油和化工,2012(3):7-12.
[3]HONG S,KIM J,KIM M,et al.Radical polymerization of acrylate copolymer-based GMA for use as a UV-curable layer via thin coating[J].Advances in Polymer Technology.2012,31(4):271-279.
[4]杨建文,曾兆华,陈用烈.光固化涂料及应用[M].北京:化学工业出版社,2005.
[5]HAN W,LIN B,ZHOU Y,et al.Synthesis and properties of UV-curable hyperbranched polyurethane acrylate oligomers containing photoinitiator[J].Polymer bulletin.2012,68(3):729-743.
[6]KULKARNI R D,CHAUDHARI M E,MISHRA S.UV cure acrylate monomers:synthesis,analysis and storage[J].Pigment&Resin Technology,2013,42(1):53-67.
[7]裴世红,陶洋,王丽丽,等.丙烯酸酯乳液的改性研究与发展状况[J].化工新型材料,2011(7):8-9.
[8]吴小松,蒂莫西·爱德华·毕晓普,约翰·门罗·齐默曼,等.用于光纤的可辐射固化涂料[P].CN102471149A.2012.05.23
[9]谭远清.一种含氟树脂的光固化光纤涂料组合物及其制备方法[P].CN101792619A.2010.03.25.
[10]?ANAK T?,SERHATLI E.Synthesis of fluorinated urethane acrylate based UV-curable coatings[J].Progress in Organic Coatings,2013,76(2/3):388-399.
[11]王国志,刘文兴,胥卫奇,等.耐高温光纤用快速固化聚酰亚胺涂料[P].CN102492320A.2012.06.13
[12]王国志,胥卫奇,刘文兴,等.UV固化低折射率光纤涂料的研制[J].现代涂料与涂装,2010(9):19-22.
[13]HARKAL U D,MUEHLBERG A J,WEBSTER D C.UV curable glycidyl carbamate based resins[J].Progress in Organic Coatings.2012,73(1):19-25.
[14]胡秀智,雷家珩.POSS改性聚氨酯UV树脂涂料的性能及其应用研究[OL].[2013-04-23].中国科技论文在线,http://www.paper.edu.cn/releasepaper/content/201304-452.
[15]JIANG W,JIN F,PARK S.Synthesis of ditrimethylolpropane acrylate with low functionality for UV-curable coatings[J].Journal of Industrial and Engineering Chemistry,2012,18(5):1577-1581.
[16]康小孟.UV固化聚氨酯丙烯酸酯体系在涂料中的应用及发展[J].扬州工业职业技术学院论丛,2010(2):21-25.
[17]张红明,李季,王献红,等.一种光纤外层涂料组合物及其制备方法[P].CN102174288A.2011.09.07.
[18]高倩,胡卫雅,方锡武,等.水性紫外光固化涂料的研究进展[J].化工生产与技术,2011(3):39-41.
[19]VIERA J,MILAN M,BOHUSLAVA H,et al.Influence of UV-curing conditions on polymerization kinetics and gloss of urethane acrylate coatings[J].Progress in Organic Coatings,2013,76(2/3):432-438.
[20]李照磊,高延敏,吕伟刚,等.有机硅改性环氧丙烯酸酯/E-51分子设计混杂光固化涂料的研究[J].江苏科技大学学报:自然科学版,2010,24(5):452-456.
[21]孙大华,苗瑞.内层涂料对光纤传输性能的影响[J].光通信,2006(10):38-40.
[22]KOZLOV V A,MURPHY E.New UV Cure Heat Resistant Coatings and Performance Durability of Mid-Temp Optical Fibers[C].59th IWCS Proceedings,2010.
[23]冯术娟,鲁刚,黄本华,等.一种传能光纤用涂料[P].CN102718415A.2012.10.10.
[24]FERTIER L,KOLEILAT H,STEMMELEN M E N,et al.The use of renewable feedstock in UV-curable materials—A new age for polymers and green chemistry[J].Progress in Polymer Science,2013,38(6):932.
[25]蔡木子.武汉光纤行业配套问题亟待破解[N/OL].长江日报,(2011-08-25).http://news.163.com/11/0825/04/7C9ATRK300014AED.html.
基本信息:
DOI:10.16389/j.cnki.cn42-1737/n.2014.01.003
中图分类号:TQ637.4
引用信息:
[1]邹立勇,尤庆亮,范和平等.紫外光固化新型光纤涂料研究进展[J].江汉大学学报(自然科学版),2014,42(01):17-22.DOI:10.16389/j.cnki.cn42-1737/n.2014.01.003.
基金信息: