[1]杜长森,杨 義,付少海*.彩色乳胶粒的制备及其在纺织品喷墨印花中的应用研究进展[J].服装学报,2021,6(06):478-483.
 DU Changsen,YANG Yi,FU Shaohai*.Preparation of Colored Latex Particles and Research Progress in Textile Ink-Jet Printing[J].Journal of Clothing Research,2021,6(06):478-483.
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彩色乳胶粒的制备及其在纺织品喷墨印花中的应用研究进展()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第6卷
期数:
2021年06期
页码:
478-483
栏目:
服装材料与技术
出版日期:
2021-12-31

文章信息/Info

Title:
Preparation of Colored Latex Particles and Research Progress in Textile Ink-Jet Printing
作者:
杜长森1;  杨 義2;  付少海*2
1. 苏州世名科技股份有限公司,江苏 昆山 215337; 2. 江南大学 纺织科学与工程学院,江苏 无锡 214122
Author(s):
DU Changsen1;  YANG Yi2;  FU Shaohai*2
1. Suzhou Sunmun Technology Co., Ltd., Kunshan 215337, China; 2. College of Textile Science and Engineering,Jiangnan University, Wuxi 214122, China
分类号:
TS 194.21; TS 190.2
文献标志码:
A
摘要:
彩色乳胶粒具有尺寸小、粒径分布窄、颜色鲜艳以及聚合物成分可调控且固色牢度好等优点,可作为喷墨印花用着色剂进而替代颜料。综述了制备彩色乳胶粒的3种常用方法:共聚法、直接染色法和表面接枝法; 从彩色乳胶粒着色剂与聚合物的结合方式、单分散性和功能性3个方面分析了不同方法制得产品的特点。分析结果表明,彩色乳胶粒用于喷墨印花可有效解决小分子染料的利用率不高、颜料墨水稳定性差、喷墨印花织物色牢度不佳等问题,且印花织物的各项性能均能符合服用要求,在喷墨印花领域具有较佳的应用前景。
Abstract:
Color latex particles have the advantages of small size, narrow particle size distribution, bright color, adjustable polymer composition, good color fastness, and can be used as colorants for ink-jet printing to replace pigments.Three common methods for preparing colored latex particles are first reviewed,namely copolymerization, direct dyeing, and surface grafting. The characteristics of the color latex particles prepared by different methods are analyzed from the three aspects of the combination mode, monodispersity, and functionality between the colorant and the polymer in the color latex particles. The analysis results show that the use of colored latex particles in ink for inkjet printing can effectively solve the problems of the low utilization rate of small molecule dyes, the poor dispersion stability of pigment inks, poor color fastness of ink-jet printed fabrics. The performance of colored latex particles printed fabrics can reach wearing requirements. Colored latex particles have a better application prospect in the field of ink-jet printing.

参考文献/References:

[1] KIM I, JU B, ZHOU Y, et al. Microstructures in all-inkjet-printed textile capacitors with bilayer interfaces of polymer dielectrics and metal-organic decomposition silver electrodes[J]. ACS Applied Materials and Interfaces, 2021, 13(20): 24081-24094.
[2] VEGA GUTIERREZ S M, HE Y J, CAO Y, et al. Feasibility and surface evaluation of the pigment from scytali-dium cuboideum for inkjet printing on textiles[J]. Coatings, 2019, 9(4): 266.
[3] MENG Y D, SUN G D, HUANG Y, et al. Design and preparation of tertiary amine modified polyurethane acrylate oligomer with Co-initiation/polymerization bifunctions for photo-curable inkjet printing of textiles[J]. Macromolecular Materials and Engineering, 2020, 305(7): 2000178.
[4] HAKEIM O A, ARAFA A A, ZAHRAN M K, et al. UV-curable encapsulation of surface—Modified organic pigments for inkjet printing of textiles[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, 447: 172-182.
[5] HAKEIM O A, ARAFA A A, ZAHRAN M K, et al. Characterisation and application of pigmented UV-curable inkjet inks[J]. Pigment and Resin Technology, 2018, 47(2): 164-172.
[6] WANG L, HU C Y, YAN K L. A one-step inkjet printing technology with reactive dye ink and cationic compound ink for cotton fabrics[J]. Carbohydrate Polymers, 2018, 197: 490- 496.
[7] REKABY M, THALOUTH J I A E, EL-SALAM S H A. Improving reactive ink jet printing via cationization of cellulosic linen fabric[J]. Carbohydrate Polymers, 2013, 98(2): 1371-1376.
[8] GAO C Y, HOU X N, XING T L, et al. Development and design of low volatile waterborne disperse ink using LF-NMR[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 592: 124503.
[9] 许秋生. 活性染料喷墨印花墨水的配制及其应用工艺研究[D]. 上海: 东华大学, 2009.
[10] 张悦, 高承永, 楚润善, 等. 涤棉织物分散/活性染料干法转移印花[J]. 印染, 2020, 46(5): 13-18.
ZHANG Yue, GAO Chengyong, CHU Runshan, et al. Dry-transfer printing of polyester/cotton fabrics with disperse and reactive dyes[J]. China Dyeing and Finishing, 2020, 46(5): 13-18.(in Chinese)
[11] DU Z H, YU X H, HAN Y C. Inkjet printing of viscoelastic polymer inks[J]. Chinese Chemical Letters, 2018, 29(3): 399- 404.
[12] SUROV O V, VORONOVA M I, ZAKHAROV A G. Synthesis and properties of cellulose nanocrystal conjugates with reactive dyes[J]. Cellulose, 2021, 28(10): 6269- 6285.
[13] FAISAL S, LIN L. Green synthesis of reactive dye for ink-jet printing[J]. Coloration Technology, 2020, 136(2): 110-119.
[14] LI M, ZHANG L P, AN Y J, et al. Relationship between silk fabric pretreatment, droplet spreading, and ink-jet printing accuracy of reactive dye inks[J]. Journal of Applied Polymer Science, 2018, 135(45): 46703.
[15] WILSON J H, BRADBURY R, ANNABLE T, et al. Inkjet printable aqueous composite dye-polymer nanoparticles[J]. Dyes and Pigments, 2012, 95(2): 201-205.
[16] YOON C, CHOI J H. Synthesising polymeric dispersants to apply to carbon black pigmented mill bases for use in ink-jet inks[J]. Coloration Technology, 2020, 136(1): 60-74.
[17] ELGAMMAL M, SCHNEIDER R, GRADZIELSKI M. Development of self-curable hybrid pigment inks by miniemulsion polymerization for inkjet printing of cotton fabrics[J]. Dyes and Pigments, 2016, 133: 467- 478.
[18] 罗汝楠, 张辉. 活性染料数码印花真丝织物颜色的紫外线防护作用[J]. 丝绸, 2018, 55(2): 8-12.
LUO Runan, ZHANG Hui. Study on UV protection performance of color of reactive dyes digital printing silk fabric[J]. Journal of Silk, 2018, 55(2): 8-12.(in Chinese)
[19] LI J, FAN J, CAO R, et al. Encapsulated dye/polymer nanoparticles prepared via miniemulsion polymerization for inkjet printing[J]. ACS Omega, 2018, 3(7): 7380-7387.
[20] FOGA?A L A, FEUSER P E, RICCI-J?NIOR E, et al. ZnO and quercetin encapsulated nanoparticles for Sun protection obtained by miniemulsion polymerization using alternative co-stabilizers[J]. Materials Research Express, 2020, 7(1): 015096.
[21] DE SOUZA V B, THOMAZINI M, ECHALAR BARRIENTOS M A, et al. Functional properties and encapsulation of a proanthocyanidin-rich cinnamon extract(Cinnamomum zeylanicum)by complex coacervation using gelatin and different polysaccharides[J]. Food Hydrocolloids, 2018, 77: 297-306.
[22] WANG Q K, WANG Y Q, CHANG Q B, et al. Preparation of ultrafine spherical Pr-ZrSiO4 pigment by Sol-gel-microemulsion method[J]. Silicon, 2020, 12(3): 585-594.
[23] OHISHI T, KAWAMURA T. Synthesis and properties of latent pigment nano- and micro-encapsulated in high-durability inorganic capsules[J]. Frontiers in Nanoscience and Nanotechnology, 2017, 3(3): 1-8.
[24] GARCIA V S, GUERRERO S A, GUGLIOTTA L M, et al. A lateral flow immunoassay based on colored latex particles for detection of canine visceral leishmaniasis[J]. Acta Tropica, 2020, 212: 105643.
[25] ABDOLLAHI A, SAHANDI-ZANGABAD K, ROGHANI-MAMAQANI H. Rewritable anticounterfeiting polymer inks based on functionalized stimuli-responsive latex particles containing spiropyran photoswitches: reversible photopatterning and security marking[J]. ACS Applied Materials and Interfaces, 2018, 10(45): 39279-39292.
[26] FANG K J, ZHANG L, CAI Y Q, et al. Hollow disperse dyes/copolymer composite nanospheres[J]. Dyes and Pigments, 2017, 136: 191-196.
[27] FANG K J, REN B. A facile method for preparing colored nanospheres of poly(styrene-co-acrylic acid)[J]. Dyes and Pigments, 2014, 100: 50-56.
[28] LEE J H, GOMEZ I J, SITTERLE V B, et al. Dye-labeled polystyrene latex microspheres prepared via a combined swelling-diffusion technique[J]. Journal of Colloid and Interface Science, 2011, 363(1): 137-144.
[29] BRAGA M, LEITE C A P, GALEMBECK F. Hydro-phobic polymer modification with ionic reagents: polystyrene staining with water-soluble dyes[J]. Langmuir, 2003, 19(18): 7580-7586.
[30] ZHOU L, LI H, WU Y, et al. Facile fabrication of reactive dye@PSt photonic crystals with high contrast on textile substrates by ink-jet printing[J]. Materials Chemistry and Physics, 2020, 250: 123025.
[31] 曾佳, 倪忠斌, 陈明清. 含蒽醌生色团聚合物微球的制备及表征[J]. 功能材料, 2013, 44(9): 1346-1349.
ZENG Jia, NI Zhongbin, CHEN Mingqing. Preparation and characterization of polymeric microspheres containing aminoanthraquinone chromophore[J]. Journal of Functional Materials, 2013, 44(9): 1346-1349.(in Chinese)
[32] LIU Q H, LIU J, GUO J C, et al. Preparation of polystyrene fluorescent microspheres based on some fluorescent labels[J]. Journal of Materials Chemistry, 2009, 19(14): 2018.
[33] LI B T, SHEN J, LIANG R B, et al. Synthesis and characterization of covalently colored polymer latex based on new polymerizable anthraquinone dyes[J]. Colloid and Polymer Science, 2012, 290(18): 1893-1900.
[34] LI B T, SHEN J, JIANG Y M, et al. Preparation and properties of covalently colored polymer latex based on a new anthraquinone monomer[J]. Journal of Applied Polymer Science, 2013, 129(3): 1484-1490.
[35] LI B T, SHAO W, WANG Y Z, et al. Facile synthesis and characterization of covalently colored polyurethane latex based on the chain extension of water-soluble dye monomer[J]. Progress in Organic Coatings, 2019, 129: 140-146.
[36] YANG Y, LI M, FU S H. Monodispersed colored polymer latex particles with film formation and chemical crosslinking for application on textile binder-free printing[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 619: 126527.
[37] 曾佳. 彩色微球的制备及其应用[D]. 无锡: 江南大学, 2013.
[38] LIU H B, GUO J, JIN L, et al. Fabrication and functionalization of dendritic poly(amidoamine)-immobilized magnetic polymer composite microspheres[J]. The Journal of Physical Chemistry B, 2008, 112(11): 3315-3321.
[39] YANG Y, LI M, FU S H. Use of highly-stable and covalently bonded polymer colorant on binder-free pigment printing of citric acid treated cotton fabric[J]. Cellulose, 2021, 28(3): 1843-1856.
[40] SONG Y W, FANG K J, BUKHARI M N, et al. Disperse dye/poly(styrene-methacrylic acid)nanospheres with high coloration performance for textiles[J]. Journal of Cleaner Production, 2020, 263: 121538.
[41] FANG K J, XIE R Y, LIU X M, et al. Reactive dye/poly(styrene-co-butyl acrylate-co-trimethyl(vinylbenzyl)ammonium chloride)nanospheres with high coloration performance for cleaner dyeing of cotton fabrics[J]. Cellulose, 2019, 26(9): 5807-5819.
(责任编辑:邢宝妹)

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更新日期/Last Update: 2021-10-31