Research progress of applications of photo-induced surface modification technique in flame retardant fabrics

被引：0

作者：

Zhou Y. ^{[1
]}

Wang R. ^{[1
,2
]}

Jin G. ^{[1
]}

Wang W. ^{[1
,2
]}

机构：

[1] School of Material Design & Engineeing, Beijing Institute of Fashion Technology, Beijing

[2] Key Laboratory of Clothing Materials R&D and Assessment, Beijing Institute of Fashion Technology, Beijing

[3] China Chemical Fibers Association, Beijing

来源：

Fangzhi Xuebao/Journal of Textile Research | 2021年 / 42卷 / 03期

关键词：

Controlled polymerization; Flame retardant fabric; Flame retardant finishing; Flame retardant mechanism; Functional textiles; Photo-induced reaction; Surface modification;

D O I：

10.13475/j.fzxb.20200601410

中图分类号：

学科分类号：

摘要：

In order to improve the durability and washable resistance of flame retardant textiles, and to balance between the flame retardant modification and green finishing, environmental protection, photo-induced surface modification for flame retardancy is one of the effective methods. The reaction mechanism of photo-induced surface modification, the flame retardant mechanism of coating and the finishing method for substrate surfaces were systematically described. Photo-induced flame retardancy treatment for cotton, polyester, polyamide, and polyacrylonitrile fabrics were mainly introduced, and the existing problems of flame retardant modification were analyzed. This review indicates that future developments of flame-retardant surface treatments for textiles need be concentrated on expanding photo-inducing light sources, especially natural light with low energy and bio-safety. The photo-controlled polymerization technology is expected to become an important technical method for facilitating the design and controlled growth of flame retardant coatings on fabric surfaces, so as to promote the wider application of the photo-induced surface treatment technology for functional flame-retardant fabrics. © 2021, Periodical Agency of Journal of Textile Research. All right reserved.

引用

页码：181 / 189and196

共 69 条

[1] ZHANG Anying, WANG Zhaoying, WANG Rui, Et al., Preparation and structural properties of flame retardant poly (L-lactic acid) and its fibers, Journal of Textile Research, 40, 4, pp. 7-14, (2019)
[2] DONG Zhenfeng, ZHU Zhiguo, WANG Rui, Et al., Progress in flame retardant performance of carbon nanotube/polymer composite systems, Journal of Textile Research, 30, 3, pp. 136-142, (2009)
[3] LIANG Kewen, WANG Rui, ZHU Zhiguo, Et al., Effect of melamine cyanurate on flame retardant PET, Journal of Textile Research, 33, 11, pp. 20-26, (2012)
[4] WEI Lifei, ZHU Zhiguo, JIN Xinyi, Et al., Effect of expansion flame retardants based on tri-2-hydroxyethyl isocyanurate on the combustion properties of polymers, Journal of Textile Research, 38, 9, pp. 24-31, (2017)
[5] WANG Rui, MO Xiaohui, WANG Xiaodong, Application status and development trend of alginate fiber, Journal of Textile Research, 35, 2, pp. 145-152, (2014)
[6] SONG Yituan, WANG Rui, ZHANG Dasheng, Graft copolymerization of yikangic acid/acrylic acid with polyester fabric, Journal of Textile Research, 28, 3, pp. 16-19, (2007)
[7] CAROSIO Federico, CUTTICA Fabio, DI Blasio Alessandro, Et al., Flame retardancy of polyester and polyester-cotton blends treated with caseins, Industrial & Engineering Chemistry Research, 53, 10, pp. 3917-3923, (2014)
[8] YOUNIS A A, El-NAGAR K H, NOUR M A., Characterization of flammability behavior of polyester fabric modified with sol-gel, International Journal of Chemistry, 5, 2, (2013)
[9] PAN Ying, WANG Wei, PAN Haifeng, Et al., Fabrication of montmorillonite and titanate nanotube based coatings via layer-by-layer self-assembly method to enhance the thermal stability, flame retardancy and ultraviolet protection of polyethylene terephthalate (PET) fabric, RSC Advances, 6, 59, pp. 53625-53634, (2016)
[10] CHENG Haonan, Flame retardant finishing of cotton fabric based on ATRP grafted DMMEP, China Dyeing & Finishing, 44, 16, pp. 10-13, (2018)

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