[1]董 科,赵 晨,朱焱陌陌,等.碳纤维发热网络的制备及其在散香服装面料中的应用[J].服装学报,2020,5(06):475-481.
 DONG Ke,ZHAO Chen,ZHU Yanmomo,et al.Preparation of Carbon Fiber Heating Network and Its Application in Fragrance-Release Fabric[J].Journal of Clothing Research,2020,5(06):475-481.
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碳纤维发热网络的制备及其在散香服装面料中的应用()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第5卷
期数:
2020年06期
页码:
475-481
栏目:
服装材料学
出版日期:
2020-12-31

文章信息/Info

Title:
Preparation of Carbon Fiber Heating Network and Its Application in Fragrance-Release Fabric
作者:
董 科;  赵 晨;  朱焱陌陌;  钱 坤;  肖学良*
江南大学 生态纺织教育部重点实验室,江苏 无锡 214122
Author(s):
DONG Ke;  ZHAO Chen;  ZHU Yanmomo;  QIAN Kun;  XIAO Xueliang*
Key Laboratory of Eco-Textile,Ministry of Education,Jiangnan University,Wuxi 214122,China
分类号:
TS 102.4.3
文献标志码:
A
摘要:
在发热面料中探索不同参数的“∞”型和“#”型碳纤维发热网络结构和相应电阻,对研究其发热性能有良好的指导作用。通过改变碳纤维导电结构的外接电压,利用热成像仪观察发热网络温度-时间变化,研究不同结构参数对碳纤维网络发热性能的影响规律。结果表明:相同电压下,增加发热结构单位网格周长,发热能力下降; 增加外接电压,则发热结构达到的最高温度随之增加; 当单位网格参数相同时,“∞”型发热结构发热速率最快,50 s内可升至最高发热温度并稳定,而“#”型发热结构的发热时间较长,约为125 s,稳定状态下“#”型发热结构能达到较高的发热温度。将发热网络与含温控缓释散香微胶囊的面料复合,制备具有电热温控散香的功能面料,并表征不同网络结构功能面料的散香性能。
Abstract:
In order to study the heating performance of the heating fabrics, the heating network structure and corresponding resistance of "∞" type and "#" type carbon fiber with different parameters were explored.By changing the external voltage of the conductive structure and observing the temperature time change of the heating network with the thermal imager, the influence of different structural parameters on the heating performance of the carbon fiber network were studied. The results showed that under the same voltage, an increase of the unit grid perimeter of the heating structure element would decrease the heating capacity, an increase of the external voltage would increase the maximum temperature of the heating structure reached. When the unit grid parameters were the same, the heating rate of "∞" type heating structure was the fastest, and it could rise to the maximum heating temperature and mantain stable within 50 s, while the heating time of "#" type heating structure was longer with about 125 s and could reach a higher heating temperature in a steady state. Finally, the heating network and the micro capsule fabric with temperature controlled and slow-release fragrance were combined to prepare functional fabric with temperature controlling fragrance, and the fragrance dispersion performance of the functional fabrics with different network structures were characterized.

参考文献/References:

[1] 徐欣祥,李冰,胡毅,等.芳香微胶囊整理工艺优化与表征及留香效果研究[J].浙江理工大学学报(自然科学版), 2017, 37(2):175-179.
XU Xinxiang, LI Bing, HU Yi, et al. Research on fragrant microcapsule finishing process optimization representation and fragrant effect[J]. Journal of Zhejiang Sci-Tech University(Natural Sciences),2017,37(2):175-179.(in Chinese)
[2] 杨勇,杨一,杨胜林.薄荷油微胶囊在芳香纤维和织物中的应用[J].印染,2017,43(9):35-37.
YANG Yong,YANG Yi,YANG Shenglin.Preparation of peppermint oilmicrocapsule and its application to fragrant fiber and fabric[J]. China Dyeing and Finishing,2017,43(9):35-37.(in Chinese)
[3] 钱伯章.碳纤维应用的最新进展[J]. 国外塑料,2009, 27(10): 58- 62.
QIAN Bozhang. Recent progress in the application of carbon fiber[J]. World Plastics,2009, 27(10): 58- 62.(in Chinese)
[4] 胡心怡,王韶辉,张焕然.针织物芳香微胶囊整理后留香效果分析[J].青岛大学学报(工程技术版),2009, 24(3):64- 68.
HU Xinyi,WANG Shaohui,ZHANG Huanran.Analysis on aroma reserving effect of aroma finished knitted fabrics[J]. Journal of Qingdao University(Engineering Techno-logy Edition),2009, 24(3): 64- 68.(in Chinese)
[5] 徐硕,王卓,王亚平, 等.浅论应用碳纤维的领域[J]. 广州化工, 2018,46(20):29-30.
XU Shuo,WANG Zhuo,WANG Yaping, et al. Discussion on specific application of carbon fiber[J]. Guangzhou Chemical Industry, 2018,46(20):29-30.(in Chinese)
[6] 储长流,朱宁.碳纤维的性能与应用[J].北京纺织,2001,22(6):39- 41,60.
CHU Changliu,ZHU Ning.The properties and applications of carbon fiber[J]. Beijing Textile,2001,22(6):39- 41,60.(in Chinese)
[7] 张猛,富秀荣.碳纤维发热织物的电热性能研究[J].合成纤维, 2015, 44(11): 25-27,57.
ZHANG Meng, FU Xiurong. Study on electrothermal performance of carbon fiber heating fabric[J].Synthetic Fiber in China, 2015, 44(11): 25-27,57.(in Chinese)
[8] 李峻,李灵炘,曹霄洁,等.碳纤维发热服装设计的研究[J]. 纺织报告,2007(9):48-51.
LI Jun,LI Lingxin,CAO Xiaojie,et al.The research on the design of carbon fiber heating apparel[J].Textile Reports,2007(9): 48-51.(in Chinese)
[9] 杨小平,荣浩鸣,沈曾民.碳纤维面状发热材料的性能研究[J].高科技纤维与应用,2000,25(3):39- 42,48.
YANG Xiaoping,RONG Haoming,SHEN Zengmin. Study on the properties of carbon fiber facial heating material[J]. High-Tech Fiber and Applications,2000,25(3):39- 42,48.(in Chinese)
[10] 周亮,姚玲玲,贺君,等.抗电磁辐射碳纤维复合吸波材料优化设计与制备[J].矿冶工程,2017,37(2):136-139.
ZHOU Liang,YAO Lingling,HE Jun,et al.Optimal design and preparation of carbon-fiber composite absorbing material[J]. Mining and Metallurgical Engineering,2017, 37(2): 136-139.(in Chinese)
[11] 王玲芳.温度响应型自封闭芳香缓释聚氨酯微胶囊的研究[D].北京:北京化工大学,2006.
[12] 崔贞超,刘国金,周岚,等.温控缓释芳香微胶囊的制备及其性能[J].浙江理工大学学报(自然科学版), 2018, 39(5): 521-525.
CUI Zhenchao,LIU Guojin,ZHOU Lan,et al.Preparation and properties of the thermostatic sustained-release fragrant microcapsules[J].Journal of Zhejiang Sci-Tech University(Natural Sciences), 2018, 39(5): 521-525.(in Chinese)
[13] 倪昭玉,王煊,王建华,等.缓释型芳香微胶囊的制备及其应用进展[J].上海纺织科技,2015,43(8):1- 4.
NI Zhaoyu, WANG Xuan, WANG Jianhua, et al. The preparation and application of sustained fragrant microcapsules[J]. Shanghai Textile Science and Technology,2015,43(8):1- 4.(in Chinese)
[14] 张美艳.茉莉香精微胶囊的结构调控及其在抗抑郁功效纺织品中的应用[D].上海:东华大学, 2011.
[15] 吴官正,张玲,范佳璇,等.服装用发热碳纤维串并联模型对发热效率及均匀性的影响[J].服装学报,2018,3(4): 294-300.
WU Guanzheng,ZHANG Ling,FAN Jiaxuan,et al.Study on heat efficiency and uniformity of heating carbon fiber series parallel model[J].Journal of Clothing Research, 2018,3(4): 294-300.(in Chinese)
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更新日期/Last Update: 2020-12-31