Journal of Textile Research ›› 2020, Vol. 41 ›› Issue (06): 48-54.doi: 10.13475/j.fzxb.20190803107

• Textile Engineering • Previous Articles     Next Articles

Innovative design of fabrics combining jacquard design and printing and clipping with a two-layer effect

JIN Shiyi, ZHOU Jiu()   

  1. Silk and Fashion Culture Research Center of Zhejiang Province, Zhejiang Sci-Tech University, Hangzhou, Zhejiang 310018, China
  • Received:2019-08-21 Revised:2020-02-25 Online:2020-06-15 Published:2020-06-28
  • Contact: ZHOU Jiu E-mail:zhoujiu34@126.com

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Abstract:

In order to create new ideas for innovative design of fabrics with multiple effects, this research worked to combine the design of two-layer jacquard (J) fabrics with printing (P) and clipping(C), and put forward the design method for JPC fabrics with an two-layer effect. The method made it possible for a jacquard fabric to be printed on and to be clipped or burnt-out for pattern creation. The work divided the fabric into the jacquard layer, clipping layer and printing layer, and conceived from pattern design and weave structure design to put forward feasible technical scheme. The design practice showes that it is feasible to complete the innovative design of JPC fabrics with a two-layer effect, and to construct an innovative system of JPC fabrics to integrate characteristics of two-layer, jacquard, printing and clipping into one. Such created fabric is able to show four static and three dynamic effect combinations.

Key words: jacquard and printing and clipping fabric, digital jacquard, clipped fabric, multiple effect combination, woven fabric

CLC Number: 

  • TS194.1

Fig.1

Design framework of JPC fabric"

Fig.2

Structural sketch of JPC fabric with two-layer effect"

Fig.3

Design process of JPC fabric with two-layer effect"

Fig.4

Pattern arrangement of JPC fabric with two-layer effect. (a) Scatter arrangement; (b) Continuous arrangement"

Fig.5

Step diagram of forming fabric linking layer"

Fig.6

Horizontal cross-section and fabric section diagram of first organizational structure design method. (a) Horizontal cross-section; (b) Fabric section diagram"

Fig.7

Horizontal cross-section(a) and fabric section diagram(b) of second organizational structure design method"

Fig.8

Horizontal cross-section(a) and fabric section diagram(b) of third organizational structure design method"

Fig.9

Design patterns and layered pattern"

Fig.10

Three kinds of fabrics after three-stage treatment and final effect. (a)Jacquard fabric; (b)JPC fabric with two-layer effect; (c)JPC fabric with two-layer effect; (d)Final effect"

Fig.11

Four static combination effects of JPC fabric with two-layer effect. (a)Two-layer page turning effect; (b)Rich color effect; (c)Jacquard texture effect; (d)Clipping effect"

[1] 罗秉芬, 周赳. 基于提花纹理的精准印花织物创新设计[J]. 丝绸, 2015,52(3):37-40.
LUO Bingfen, ZHOU Jiu. Innovative design of printing fabric based on jacquard texture[J]. Journal of Silk, 2015,52(3):37-40.
[2] 许黎明, 黄宇渊, 徐全伟. 利用数码印花机对面料的精准数码印花方法及面料:107901622A[P]. 2018-04-13.
XU Liming, HUANG Yuyuan, XU Quanwei. Fabric and positioning digital printing method with digital printing machine: 107901622A[P]. 2018-04-13.
[3] 张俊龙. 创新技术引领数码印花宏华数码图像自适应数码精准印花设系统侧记[J]. 纺织服装周刊, 2014(2):31.
ZHANG Junlong. Innovative technology leads digital printing, the sidelights of Honghua accurate positioning digital printing system[J]. Textile Apparel Weekly, 2014(2):31.
[4] 周李钧. 剪花织物的印花系列产品[J]. 丝绸, 2005(11):10-11
ZHOU Lijun. Development of printing products about clipped fabric[J]. Journal of Silk, 2005(11):10-11.
[5] 叶思佳, 杜奕铃, 张永高, 等. 涤纶起绒织物着色烂花印花中分散染料的耐碱性[J]. 纺织学报, 2018,39(1):98-103.
YE Sijia, DU Yiling, ZHANG Yonggao, et al. Alkali resistance of disperse dyes in colored burnt-out printing on polyester fleece fabric[J]. Journal of Textile Research, 2018,39(1):98-103.
[6] 金诗怡, 周赳. 提花-印花的色织剪花织物创新设计[J]. 丝绸, 2019,56(1):61-65.
JIN Shiyi, ZHOU Jiu. Innovative design of dyed and clipped fabric combining jacquard and printing[J]. Journal of Silk, 2019,56(1):61-65.
[7] 张萌, 周赳. 双面双层结构提花织物的表里换层设计与实践[J]. 纺织学报, 2018,39(12):41-46.
ZHANG Meng, ZHOU Jiu. Layer-exchanging design and practice of double-face two-layer jacquard fabric[J]. Journal of Textile Research, 2018,39(12):41-46.
[8] 李旦. 双层织物的组织设计研究[J]. 上海纺织科技, 2001(2):27-28.
LI Dan. Study on weave design of two-layer fabrics[J]. Shanghai Textile Science & Technology, 2001(2):27-28.
[9] 张萌. 基于分层组合模式的双面效果提花织物设计研究与实践[D]. 杭州: 浙江理工大学, 2019: 8-10.
ZHANG Meng. Research and practice of double-face jacquard fabric under layered-combination design mode[D]. Hangzhou: Zhejiang Sci-Tech University, 2019: 8-10.
[10] 顾平. 织物组织与结构学[M]. 上海: 东华大学出版社, 2010: 83-84.
GU Ping. Fabric weaves and structures[M]. Shanghai: Donghua University Press, 2010: 83-84.
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