纺织学报 ›› 2025, Vol. 46 ›› Issue (04): 71-80.doi: 10.13475/j.fzxb.20231202701

• 纺织工程 • 上一篇    下一篇

基于七基色纤维的羊毛混色纱全色域配色

朱文硕1, 薛元1(), 孙显强1, 薛惊理2, 金光2   

  1. 1.江南大学 纺织科学与工程学院, 江苏 无锡 214122
    2.康赛妮集团有限公司, 浙江 宁波 315000
  • 收稿日期:2023-12-18 修回日期:2024-08-08 出版日期:2025-04-15 发布日期:2025-06-11
  • 通讯作者: 薛元(1962—),男,教授,博士。研究方向为数字化与智能化纤维及纱线成形加工技术。E-mail:fzxueyuan@qq.com
  • 作者简介:朱文硕(1994—),男,博士生。主要研究方向为数字化纺纱。
  • 基金资助:
    宁波市重点研发项目(20232ZDYF020042)

Full color gamut matching of wool blended yarn based on seven primary color fibers

ZHU Wenshuo1, XUE Yuan1(), SUN Xianqiang1, XUE Jingli2, JIN Guang2   

  1. 1. College of Textile Science and Engineering, Jiangnan University, Wuxi, Jiangsu 214122, China
    2. Consinee Group Co., Ltd., Ningbo, Zhejiang 315000, China
  • Received:2023-12-18 Revised:2024-08-08 Published:2025-04-15 Online:2025-06-11

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摘要:

如何实现全色域混色纱的制备是毛纺行业一直亟待解决的问题。为此,根据色相圆颜色模型选择红、黄、绿、青、蓝、品红、灰7种基色作为全色系配色体系,并基于三元耦合叠加混色模式构建全色域网格化混色模型,建立基色纤维混合比例与混合样颜色值之间的关联。基于该模型中网格点的基色纤维混合比例可规划混色纱的混色配方,经纺纱流程制备全色域混色纱。在此理论指导下,以10%离散梯度构建全色域网格化混色模型,制备了 241种混色纱及针织物,并对其呈色进行研究。制备的混色纱织物具有均匀素色的布面效果,且实现了全色域范围内色相、彩度、明度的渐变,其实测色谱的颜色变化规律与映射色谱相同,但整体颜色偏暗。CIE色品图中基色纤维色品点连线形成的色域范围不能包含所有混色纱,具体原因有待进一步探究。

关键词: 混色纱, 羊毛纤维, 七基色, 混色模式, 全色域配色

Abstract:

Objective The color spun yarn made by blending two or more colored fibers has a rich and three-dimensional color effect on the fabric. Compared with traditional fabric dyeing methods, it has the advantages of low energy consumption and less pollution. The preparation of full color gamut blended yarns is an urgent problem in the wool spinning industry. To solve it, this paper investigates how to prepare full color gamut blended yarns towards the chromatic circular color model by blending seven primary color of wool fibers.

Method Based on the color distribution characteristics of the chromatic circle color model, the seven primary colors of red, yellow, green, cyan, blue, magenta and grey are selected as the panchromatic color matching system, and the full color gamut grid color mixture model is constructed based on the ternary coupling-combination color mixing mode, which establishes the correlation between the blending concentration of the primary color fibers and the color values of the full-color gamut grid points. The blending formulation of the blended yarn was planned based on the primary color fibers blending concentration at the grid points of the full color gamut grid color mixture model, according to which the seven primary color fibers were weighed and blended, and then the full color gamut blended yarns were prepared by the spinning process. Based on the above theory, a full color gamut grid color mixture model containing 241 grid points was constructed, according to which, 241 kinds of blended yarns and knitted fabrics were prepared by blending seven primary color fibers, and their color presentation was investigated according to the measured color values of the fabrics.

Results The knitted fabrics of blended yarns exhibits a uniform color effect, indicating that the fiber fusion degree in the blended yarn formed by blending the preferred seven primary color fibers according to the full color gamut grid color mixture model is good. The measured chromatograms of knitted fabrics and the theoretical mapping chromatograms of the seven primary color fibers full color gamut grid color mixture model show the same color change rule, both achieving gradual changes in hue, saturation and lightness within the color gamut, indicating the successful preparation of full-color gamut blended yarns.

Conclusion To realize the preparation of full color gamut blended yarns, a full color gamut grid color mixture model is constructed based on the preferred seven primary color fibers to research the preparation and color matching of full color gamut blended yarns. The results indicate that the fiber fusion degree of the full color gamut blended yarn prepared by the seven primary color fibers according to the full color gamut grid color mixture model was good, and the color of the knitted fabric achieved a gradual change in hue, saturation and lightness within color gamut of the seven primary color mixing, thus realizing the preparation of full color gamut blended yarns.

Key words: blended yarn, seven wool fiber, seven primary color fiber, color mixing mode, full color gamut matching

中图分类号: 

  • TS104.1

图1

色相圆颜色模型"

图2

色相圆颜色模型的色域范围"

图3

全色域网格化混色模型"

图4

三元耦合叠加网格化混色映射色谱"

图5

矩形全色域网格化混色模型的映射色谱"

图6

圆形全色域网格化混色模型的映射色谱"

图7

混色纱制备流程及相关设备"

图8

混色纱线照片"

图9

混色纱针织物实物"

图10

基色纤维及混合样的色品坐标分布"

图11

七基色纤维混色映射色谱"

图12

七基色纤维混色织物实测色谱"

[1] 向玲杰, 王荣, 易清珠, 等. 羊毛用原色纤维混合色域空间扩展研究[J]. 毛纺科技, 2021, 49(11):11-16.
XIANG Lingjie, WANG Rong, YI Qingzhu, et al. Study on space expansion of mixed gamut of wool primary color fiber[J]. Wool Textile Journal, 2021, 49(11):11-16.
[2] SUN Xianqiang, XUE Yuan, LIU Yuexing, et al. Construction of circular-shaped chromatic model and spinning of full color gamut colored yarn by digital blending of three primary colored fibers[J]. Textile Research Journal, 2023, 93(1/2):140-160.
[3] ZHU Wenshuo, XUE Yuan, CHEN Yourong, et al. Color mixture model of seven primary color fiber grid blending and rotor spinning of full-color gamut mixed color yarn[J]. Textile Research Journal, 2023, 93(17/18): 4053-4067.
[4] 张婷婷, 薛元, 徐志武, 等. 三通道数码纺混色纱色谱体系构建及其彩色纱性能分析[J]. 纺织学报, 2019, 40(9):48-55.
ZHANG Tingting, XUE Yuan, XU Zhiwu, et al. Color system construction of three-channel digital spinning mixed color yarn and performance analysis of colored yarn[J]. Journal of Textile Research, 2019, 40(9):48-55.
[5] 车江宁, 陈东辉, 周志华. 混色纤维/天然色棉配色范围探讨[J]. 纺织学报, 2004(1):15-17.
CHE Jiangning, CHEN Donghui, ZHOU Zhihua, et al. Discussion on the color matching range of mixed color fiber/natural color cotton[J]. Journal of Textile Research, 2004(1):15-17.
[6] WEI Chun'ao, WAN Xiaoxia, LI Junfeng. Color prediction model for pre-colored fiber blends based on modified Stearns-Noechel function[J]. Dyes and Pigments, 2017, 147: 544-551.
[7] 刘丽艳, 黄建刚, 陆卫东, 等. 标准色在条染拼毛中的应用[J]. 毛纺科技, 2019, 47(5):26-29.
LIU Liyan, HUANG Jiangang, LU Weidong, et al. Application of standard color in top dyeing[J]. Wool Textile Journal, 2019, 47(5):26-29.
[8] 赵玉, 刘卫, 胡京平, 等. 三原色纤维优选及其混纺呈色应用的研究[J]. 毛纺科技, 2015, 43(1):1-5.
ZHAO Yu, LIU Wei, HU Jingping, et al. Research on three-primary-color fibers optimization and application of color generation by fiber blending[J]. Wool Textile Journal, 2015, 43(1):1-5.
[9] 易清珠, 王妮, 庄兴民, 等. 原色纤维优选及其混合色域空间的研究[J]. 棉纺织技术, 2019, 47(8):17-21.
YI Qingzhu, WANG Ni, ZHUANG Xingmin, et al. Study on optimum primary color fiber and their color gamut space[J]. Cotton Textile Technology, 2019, 47(8):17-21.
[10] ZHU Wenshuo, XUE Yuan, CHEN Yourong, et al. Construction of grid color mixture model of seven primary-color and modified stearns-noechel color matching algorithm for color prediction of full-color-gamut rotor melange yarn[J]. Journal of Engineered Fibers and Fabrics, 2023, 18:1-13.
[11] 林维, 薛元, 金淑兰, 等. 原液着色雪尼尔簇绒地毯生产工艺及其花型创意设计[J]. 纺织导报, 2022(1):38-44.
LIN Wei, XUE Yuan, JIN Shulan, et al. Production process of spun-dyed chenille tufted carpet and related creative pattern design[J]. China Textile Leader, 2022(1):38-44.
[12] WEI Chun'ao, WAN Xiaoxia, LI Junfeng. A modified single-constant Kubelka-Munk model for color prediction of pre-colored fiber blends[J]. Cellulose, 2018, 25: 2091-2102.
[13] SHEN Jiajia, ZHOU Xiang. Spectrophotometric colour matching algorithm for top-dyed melange yarn based on an artificial neural network[J]. Coloration technology, 2017, 133(4): 341-346.
[14] 张艳茹, 陈超, 王强, 等. 有色涤纶混和呈色的局部与整体特征研究[J]. 棉纺织技术, 2022, 50(9):28-33.
ZHANG Yanru, CHEN Chao, WANG Qiang, et al. Study on partial and whole characterization of colored polyester blending color generation[J]. Cotton Textile Technology, 2022, 50(9):28-33.
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