[1]肖彩勤,胡霄睿,孙丰鑫*,等.针/机织复合织物定向导湿性的等离子改性构建及其舒适性评价[J].服装学报,2020,5(05):387-392.
 XIAO Caiqin,HU Xiaorui,SUN Fengxin*,et al.Construction and Comfort Evaluation on Directional Liquid Transport of Knitted/Woven Composite Fabrics Modified by Plasma[J].Journal of Clothing Research,2020,5(05):387-392.
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针/机织复合织物定向导湿性的等离子改性构建及其舒适性评价()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第5卷
期数:
2020年05期
页码:
387-392
栏目:
服装材料学
出版日期:
2020-10-31

文章信息/Info

Title:
Construction and Comfort Evaluation on Directional Liquid Transport of Knitted/Woven Composite Fabrics Modified by Plasma
作者:
肖彩勤1;  胡霄睿1;  孙丰鑫*1; 2;  高卫东1;  陈志强2
1. 江南大学 生态纺织教育部重点实验室,江苏 无锡 214122; 2. 迪肯大学 先进材料研究中心,澳大利亚 维多利亚 3216
Author(s):
XIAO Caiqin1;  HU Xiaorui1;  SUN Fengxin*1; 2;  GAO Weidong1;  CHEN Zhiqiang2
1.Key Laboratory of Eco-Textile, Ministry of Education, Jiangnan University, Wuxi 214122, China; 2. Institute for Frontier Materials, Deakin University, Victoria 3216, Australia
分类号:
TS 101.3
文献标志码:
A
摘要:
为开发具有优良导湿性能的高舒适性服装面料,采用针织物与机织物复合的双面结构设计,对其机织面进行等离子体聚合沉积改性,构建非对称浸润性织物,探讨双面结构织物和等离子体改性对织物导湿性的协同影响机制; 通过主客观评价法对比等离子处理前后织物的热湿舒适性和硬挺手感。结果表明:采用针织与机织复合结构,借助3步等离子体处理方法,可实现具有厚度方向定向导湿与平面内差异性液态水传导性能的双面结构织物的纺制; 经过等离子体处理后织物可保持原有硬挺的触觉,且热湿舒适性明显提升。
Abstract:
In order to develop high comfort clothing fabrics with excellent moisture permeability, the com-structured fabrics by combining the woven and knitted fabrics were designed. The woven surface was modified by plasma polymerization and the asymmetric wetting fabric was constructed. The synergistic effect mechanism of com-structured fabric and plasma modification on the moisture permeability of fabric was discussed.The thermal-wet comfort and stiff handle of the fabric before and after plasma treatment were compared by subjective and objective evaluation method. The results show that the com-structured fabrics with three-step plasma treatment can achieve one-way water transport along the thickness direction of fabrics and realize the spinning of com-structured fabric with different liquid water conductivity in-plane.After plasma treatment, the fabric can keep the original stiff touch, and the thermal-wet comfort is significantly improved.

参考文献/References:

[1] 杨恩惠,沈海生,邱华.机织物透气性研究进展[J].服装学报,2020,5(1):6-11.
YANG Enhui,SHEN Haisheng,QIU Hua.Research progress on air permeability of woven fabrics[J].Journal of Clothing Research,2020,5(1):6-11.(in Chinese)
[2] DAI X Q, IMAMURA R, LIU G L, et al. Effect of moisture transport on microclimate under T-shirts[J]. European Journal of Applied Physiology, 2008,104(2): 337-340.
[3] 龙晶, 沈兰萍, 凌子超. 功能性吸湿导湿机织物的开发及性能研究[J]. 合成纤维, 2018, 47(11):32-34.
LONG Jing, SHEN Lanping, LING Zichao. Development and performance study of functional moisture absorption and moisture permeability woven fabrics[J]. Synthetic Fiber in China, 2018, 47(11): 32-34.(in Chinese)
[4] 王韧, 王科林, 李腊梅. 吸湿速干毛精纺机织面料的开发[J]. 毛纺科技, 2019, 47(1): 22-25.
WANG Ren, WANG Kelin, LI Lamei. Development of worsted woven fabrics with moisture absorption and quick-drying properties[J]. Wool Textile Journal, 2019, 47(1): 22-25.(in Chinese)
[5] 陈晓艳, 吴济宏. 梯级导湿针织面料的试制及导湿性能评价[J]. 针织工业, 2010(3): 55-57.
CHEN Xiaoyan, WU Jihong. The trial-manufacture of moisture transferring knitted fabric and the evaluation of its moisture transferring property[J]. Knitting Industries, 2010(3): 55-57.(in Chinese)
[6] UMAIR M, HUSSAIN T, SHAKER K, et al. Effect of woven fabric structure on the air permeability and moisture management properties[J]. Journal of the Textile Institute,2016,107(5):596- 605.
[7] WANG H, DING J, DAI L, et al. Directional water-transfer through fabrics induced by asymmetric wettability[J]. Journal of Materials Chemistry, 2010(20): 7938-7940.
[8] ZHOU H, WANG H, NIU H, et al. Superphobicity/philicity Janus fabrics with switchable,spontaneous,directional transport ability to water and oil fluids[J]. Scientific Reports, 2013(3):2964.
[9] 肖雅倩, 辛斌杰, 陈卓明, 等. 单向导湿纤维及织物的研究进展[J]. 河北科技大学学报, 2017,38(4): 395- 402.
XIAO Yaqian, XIN Binjie, CHEN Zhuoming,et al. Review on the development of unidirectional water-transport fibers and fabrics[J]. Journal of Hebei University of Science and Technology, 2017,38(4): 395- 402.(in Chinese)
[10] ZHU L, NAEBE M, BLANCHONETTE I, et al. Moisture transfer properties of bifacial fabrics[J]. Textile Research Journal,2017,87(9):1096-1106.
[11] DAI X J, CHEN Y, CHEN Z Q, et al. Controlled surface modification of boron nitride nanotubes[J]. Nanotechno-logy, 2011,22(24): 245301.
[12] SUN F X, CHEN Z Q, ZHU L C,et al. Directional trans-planar and different in-plane water transfer properties of composite structured bifacial fabrics modified by a facile three-step plasma treatment[J]. Coatings, 2017,7(8):132.
[13] 孙丰鑫. 基于纺织品风格仪的机织物多重性能及硬挺度的建模与表征[D]. 上海:东华大学, 2017.
[14] HU J Y, LI Y, YEUNG K W, et al. Moisture management tester: a method to characterize fabric liquid moisture management properties[J]. Textile Research Journal,2005,75(1):57- 62.
[15] SUN F X, DU Z Q, ZHENG D M, et al. In-situ characterization of handle characteristics of suiting woven fabrics by a simultaneous measurement method[J]. Textile Research Journal,2019, 89(13): 2522-2531.
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更新日期/Last Update: 2020-10-30