Journal of Textile Research ›› 2021, Vol. 42 ›› Issue (05): 122-129.doi: 10.13475/j.fzxb.20200504808

• Dyeing and Finishing & Chemicals • Previous Articles     Next Articles

Characteristics and factorial study of color transfer between dyed fiber and colored spun yarns

YUAN Li1,2(), XIONG Ying1, GU Qian1, WANG Danshu1, HUO Da1, LIU Junping3   

  1. 1. School of Electronic and Electrical Engineering, Wuhan Textile University, Wuhan, Hubei 430200, China
    2. State Key Laboratory of New Textile Materials and Advanced Processing Technologies, Wuhan Textile University, Wuhan, Hubei 430200, China
    3. School of Mathematics and Computer Science, Wuhan Textile University, Wuhan, Hubei 430200, China
  • Received:2020-05-15 Revised:2021-01-29 Online:2021-05-15 Published:2021-05-20

RichHTML

9

PDF (PC)

124

Abstract:

In order to shorten the sampling period for creating colored spun yarns and increase the production rate, spectrum and color characteristics was proposed for the analysis of the complex color transfer characteristics between fibers and yarns. Aiming at the random volatility of the color sample itself, a class separable model based on the characteristics of within and between classes and the criteria for discriminating the difference of color are established. The results show that when the morphology of the dyed fiber mixture changes, its spectral characteristics and color characteristics are significantly changed, and it has nothing to do with the fiber mixing ratio. When the twist coefficient of colored spun yarn changes, its color consistency is improved and the brightness value changes too. In addition, the color of colored spun yarn is not only related to fiber ratio parameters, but is also closely related to the processing parameters. It is a typical two-parameter color model. The research in this paper has important theoretical value for exploring the color characteristics and for analytical modeling of colored spun yarns, and it also provides practical guidance for fast sampling of colored spun yarns.

Key words: dyed fiber, color spun yarn, color transfer, spectral characteristics, color characteristics, category separable ratio

CLC Number: 

  • TS101.9

Tab.1

CIELAB chromaticity parameter of monochromatic fiber"

单色纤维 L a b
涤纶白 91.18 -1.11 2.57
涤纶红 37.29 52.64 30.72
涤纶绿 41.19 -39.84 19.97
涤纶蓝 33.81 14.48 -40.56

Tab.2

Color spinning sample preparation process and experimental instrument"

步骤
序号		 纺纱工艺
流程		 实验仪器 生产厂家
1 称量纤维 电子天平
2 扯松 手工方法
3 三道梳棉 振动式开松梳棉机 江阴市恒远机械制造有限公司
4 一道并条 并条机 沈阳纺织机械厂A272F
5 粗纱 粗纱机 中国人民解放军第五七零一厂
6 29.5 tex细纱 FA506环锭细纱机 晋中市禾田机械制造有限公司

Tab.3

Sample color scheme and twist coefficient parameter"

样本
编号		 捻系数 染色纤维质量配比
(m(白色)∶m(红色)∶m(绿色)∶m(蓝色))
FS1 300/350/400/450 70.00∶10.00∶10.00∶10.00
FS2 300/350/400/450 70.00∶9.50∶10.50∶10.00
FS3 300/350/400/450 70.00∶11.00∶9.50∶9.50
FS4 300/350/400/450 70.00∶9.50∶9.00∶11.50
FS5 300/350/400/450 70.00∶11.00∶11.00∶8.00
FS6 300/350/400/450 69.00∶8.50∶11.50∶11.00
FS7 300/350/400/450 71.00∶12.00∶8.50∶8.50
FS8 300/350/400/450 68.00∶11.50∶12.00∶8.50
FS9 300/350/400/450 72.00∶12.00∶8.00∶8.00
FS10 300/350/400/450 71.00∶7.50∶8.00∶13.50
FS11 300/350/400/450 72.00∶8.00∶13.00∶7.00

Fig.1

FS4 (twist coefficient is 300) polyester sliver (a) and dyed yarn test sample(b)"

Tab.4

Spectral characteristic distance and statistical analysis table between polyester sliver and dyed yarn samples"

配色方案 d1/10-5 d2/10-5 d3/10-5 d4/10-5
FS1 10.35 17.52 22.24 27.04
FS2 10.60 22.38 30.83 39.00
FS3 4.35 11.85 18.70 26.27
FS4 15.58 28.87 38.04 47.44
FS5 4.70 11.91 17.80 25.40
FS6 15.47 22.37 26.92 31.90
FS7 33.01 43.38 49.38 55.65
FS8 21.37 23.49 24.73 26.36
FS9 11.70 22.21 29.45 37.48
FS10 15.72 19.13 21.28 24.07
FS11 7.11 13.43 17.50 21.78
均值 13.63 21.50 26.99 32.94
方差 6.79×10-4 8.11×10-4 9.48×10-4 1.17×10-3

Tab.5

Spectral characteristic distance and statistical analysis among colored spinning samples with different twist coefficients"

配色方案 d5/10-5 d6/10-5 d7/10-5 d8/10-5 d9/10-5 d10/10-5
FS1 1.06 2.40 4.23 0.34 1.13 0.27
FS2 2.34 5.37 9.08 0.69 2.28 0.50
FS3 3.27 7.35 12.82 0.89 3.17 0.76
FS4 2.54 5.63 9.83 0.68 2.42 0.59
FS5 2.84 5.95 11.21 0.68 2.78 0.82
FS6 1.17 2.62 4.61 0.35 1.20 0.29
FS7 0.75 1.64 2.97 0.24 0.81 0.21
FS8 0.13 0.26 0.51 0.08 0.21 0.06
FS9 2.22 4.84 8.70 0.58 2.16 0.56
FS10 0.58 1.20 2.23 0.18 0.61 0.17
FS11 1.05 2.25 3.94 0.28 0.99 0.24
均值 1.63 3.59 6.37 0.45 1.61 0.41
方差 1.08×10-5 5.34×10-5 1.66×10-4 6.77×10-7 9.58×10-6 6.40×10-7

Tab.6

Spectral characteristic distance and statistical analysis of polyester sliver and dyed yarn samples"

配色方案 d11/10-5 d12/10-5 d13/10-5 d14/10-5 d15/10-5
FS1 3.15 0.04 0.09 0.16 0.26
FS2 1.46 0.08 0.02 0.11 0.26
FS3 0.48 0.06 0.12 0.17 0.23
FS4 2.32 0.10 0.13 0.16 0.19
FS5 2.49 0.08 0.10 0.14 0.20
FS6 2.51 0.22 0.24 0.30 0.35
FS7 1.69 0.02 0.04 0.13 0.23
FS8 0.74 0.61 0.02 0.23 0.72
FS9 13.50 0.52 0.13 0.04 0.01
FS10 0.57 0.02 0.09 0.21 0.36
FS11 0.73 0.07 0.01 0.004 0.02
均值 2.70 0.16 0.09 0.15 0.26
方差 1.37×10-4 4.18×10-7 4.74×10-8 6.86×10-8 3.62×10-7

Tab.7

Category separable ratio and statistical analysis of spectral feature between polyester sliver and dyed yarn samples"

配色方案 C1 C2 C3 C4
FS1 6.48 10.81 13.44 15.88
FS2 13.73 30.15 39.27 45.33
FS3 16.21 39.12 57.05 73.79
FS4 12.89 23.56 30.76 37.89
FS5 3.66 9.20 13.55 18.90
FS6 11.37 16.28 19.19 22.37
FS7 38.64 50.01 54.18 57.72
FS8 31.60 61.53 50.59 35.98
FS9 1.67 3.26 4.35 5.55
FS10 53.12 58.01 54.71 51.48
FS11 17.67 36.37 47.66 58.24
最小值 1.67 3.26 4.35 5.55
最大值 53.12 61.53 57.05 73.79
均值 18.82 30.76 34.98 38.47

Tab.8

Category separable ratio and statistical analysis of spectral feature among dyed yarn samples with different twist coefficients"

配色方案 C5 C6 C7 C8 C9 C10
FS1 15.87 23.71 28.41 2.69 6.51 1.30
FS2 46.68 57.70 53.99 10.86 16.43 2.75
FS3 36.51 64.23 89.91 5.97 17.90 3.76
FS4 21.53 43.40 67.84 4.62 15.00 3.40
FS5 30.94 53.52 79.26 5.58 18.22 4.80
FS6 5.12 10.17 16.40 1.30 4.08 0.89
FS7 26.41 22.63 23.73 2.81 5.88 1.14
FS8 0.42 0.62 0.77 0.61 0.57 0.12
FS9 6.82 17.36 33.12 6.56 29.82 21.43
FS10 10.83 10.62 11.64 1.24 2.71 0.61
FS11 25.57 57.84 86.17 49.51 79.06 23.26
最小值 0.42 0.62 0.77 0.61 0.57 0.12
最大值 46.68 64.23 89.91 49.51 79.06 23.26
均值 20.61 32.89 44.66 8.34 17.83 5.77

Tab.9

Color difference value and statistical analysis between polyester sliver and thedyed yarn samples"

配色方案 D1 D2 D3 D4
FS1 3.69 4.38 4.75 5.05
FS2 4.36 5.01 5.36 5.66
FS3 2.92 3.80 4.28 4.70
FS4 3.79 4.62 5.05 5.43
FS5 3.53 4.89 5.60 6.23
FS6 4.10 4.76 5.09 5.39
FS7 4.72 5.42 5.77 6.08
FS8 4.46 4.87 5.08 5.26
FS9 3.32 4.31 4.82 5.27
FS10 4.12 4.87 5.27 5.60
FS11 3.71 4.29 4.58 4.84
最小值 2.92 3.80 4.28 4.70
最大值 4.72 5.42 5.77 6.23
均值 3.88 4.66 5.06 5.41
方差 0.28 0.19 0.19 0.22

Tab.10

Color difference value and statistical analysis of dyed yarn samples with different twist coefficients"

配色方案 D5 D6 D7 D8 D9 D10
FS1 0.74 1.10 1.42 0.40 0.70 0.33
FS2 0.75 1.08 1.41 0.37 0.68 0.33
FS3 1.11 1.57 2.07 0.49 0.98 0.51
FS4 1.01 1.41 1.86 0.45 0.87 0.45
FS5 1.55 2.26 2.96 0.75 1.44 0.72
FS6 0.73 1.05 1.37 0.37 0.66 0.33
FS7 0.74 1.10 1.43 0.39 0.70 0.33
FS8 0.43 0.65 0.84 0.24 0.42 0.19
FS9 1.11 1.62 2.12 0.54 1.02 0.51
FS10 0.81 1.21 1.56 0.45 0.77 0.36
FS11 0.67 0.94 1.23 0.30 0.58 0.29
最小值 0.43 0.65 0.84 0.24 0.42 0.19
最大值 1.55 2.26 2.96 0.75 1.44 0.72
均值 0.88 1.27 1.66 0.43 0.80 0.40
方差 0.09 0.19 0.32 0.02 0.07 0.02

Tab.11

Color difference value and statistical analysis of polyester sliver and dyed yarn sample class"

配色方案 D11 D12 D13 D14 D15
FS1 0.83 0.16 0.14 0.17 0.23
FS2 0.68 0.16 0.09 0.17 0.29
FS3 0.28 0.08 0.13 0.17 0.22
FS4 0.47 0.12 0.18 0.21 0.24
FS5 0.05 0.12 0.20 0.26 0.32
FS6 0.73 0.20 0.08 0.06 0.07
FS7 0.65 0.03 0.07 0.12 0.16
FS8 0.70 0.40 0.10 0.22 0.41
FS9 1.57 0.48 0.22 0.10 0.04
FS10 0.33 0.08 0.08 0.14 0.21
FS11 0.49 0.15 0.07 0.05 0.06
最小值 0.05 0.03 0.07 0.05 0.04
最大值 1.57 0.48 0.22 0.26 0.41
均值 0.62 0.18 0.12 0.15 0.20
方差 0.15 0.02 0.003 0.005 0.01

Tab.12

Category separable ratio of color difference feature and statistical analysis between polyester sliver and dyed yarn samples"

配色方案 C11 C12 C13 C14
FS1 7.42 9.03 9.50 9.52
FS2 10.35 13.04 12.54 11.69
FS3 16.52 18.52 19.10 18.93
FS4 12.95 14.29 14.91 15.28
FS5 41.63 39.19 36.01 33.51
FS6 8.80 11.78 12.92 13.53
FS7 13.81 15.11 15.02 15.07
FS8 8.09 12.17 11.03 9.53
FS9 3.24 4.81 5.77 6.54
FS10 20.10 23.99 22.70 20.82
FS11 11.67 15.49 17.18 17.60
最小值 3.24 4.81 5.77 6.54
最大值 41.63 39.19 36.01 33.51
均值 14.05 16.13 16.06 15.64

Tab.13

Category separable ratio of color difference feature and statistical analysis of dyed yarn samples with different twist coefficients"

配色方案 C15 C16 C17 C18 C19 C20
FS1 4.84 6.58 7.18 2.56 3.77 1.64
FS2 6.10 6.53 6.34 2.89 3.67 1.46
FS3 10.66 12.80 14.05 3.26 5.54 2.60
FS4 6.73 8.56 10.21 2.32 4.12 1.99
FS5 9.73 11.88 13.42 3.25 5.52 2.48
FS6 5.21 8.03 10.16 5.30 9.02 5.22
FS7 15.18 14.85 15.26 4.30 6.40 2.43
FS8 1.71 2.07 2.08 1.48 1.66 0.62
FS9 3.20 5.63 8.20 3.36 7.88 7.37
FS10 9.89 10.86 10.53 4.09 5.29 2.07
FS11 6.24 9.77 11.74 5.33 8.95 5.44
最小值 1.71 2.07 2.08 1.48 1.66 0.62
最大值 15.18 14.85 15.26 5.33 9.02 7.37
均值 7.23 8.87 9.92 3.47 5.62 3.03
[1] 严旭新, 黄玉强, 于文菡, 等. 新型色纺精细混棉工艺流程研究[J]. 棉纺织技术, 2015,43(6):49-52.
YAN Xuxin, HUANG Yuqiang, YU Wenhan, et al. New fine blending process procedure study of colored spinning[J]. Cotton Textile Technology, 2015,43(6):49-52.
[2] 刘东升, 万震, 吴爱儿. 混和方式对色纺纱质量和织物风格的影响[J]. 棉纺织技术, 2017,45(3):41-43.
LIU Dongsheng, WAN Zhen, WU Aier. Influence of blending method on colored spun yarn quality and fabric style[J]. Cotton Textile Technology, 2017,45(3):41-43.
[3] 李启正, 金肖克, 张声诚, 等. 数码测色法在织物颜色评价中的应用[J]. 印染, 2014(17):17-22.
LI Qizheng, JIN Xiaoke, ZHANG Shengcheng, et al. Application of digital color measuring methods to color evaluation of textiles[J]. China Dyeing & Finishing, 2014(17):17-22.
[4] 陈美玉, 施楣梧, 孙润军. 加捻程度对着色涤纶纱线颜色变化规律的影响[J]. 西安工程科技学院学报, 2004,18(2):105-108.
CHEN Meiyu, SHI Meiwu, SUN Runjun. The influences on the colour of spun-dyed PET yarns by twist of yarns[J]. Journal of Xi'an University of Engineering Science and Technology, 2004,18(2):105-108.
[5] 杨文芳, 路硕, 李昌垒, 等. 捻度对有色粘胶纱颜色的影响[J]. 棉纺织技术, 2016,44(1):22-24.
YANG Wenfang, LU Shuo, LI Changlei, et al. Influence of twist on the color of colored viscose yarn[J]. Cotton Textile Technology, 2016,44(1):22-24.
[6] 周方颖, 任学勤, 张一心, 等. 精梳毛纱加捻颜色分析与补偿系统的开发[J]. 西安工程科技学院学报, 2006,20(5):545-548.
ZHOU Fangying, REN Xueqin, ZHANG Yixin, et al. Development of color analysis and compensation software for worsted yarn with different twist[J]. Journal of Xi'an University of Engineering Science and Technology, 2006,20(5):545-548.
[7] 张建祥, 高迎春, 蒋莹莹, 等. 影响少量纱线颜色测量的因素研究[J]. 纺织科学与工程学报, 2019,36(1):26-30.
ZHANG Jianxiang, GAO Yingchun, JIANG Yingying, et al. Study on the factors affecting the color measurement of a small amount of yarn[J]. Journal of Textile Science and Engineering, 2019,36(1):26-30.
[8] 袁理, 代乔民, 付顺林, 等. 基于原色纤维混配色织物的呈色特性与影响因素分析[J]. 纺织学报, 2018,39(10):38-43.
YUAN Li, DAI Qiaomin, FU Shunlin, et al. Analysis of color rendering characteristics and influencing factors of primary color fiber mixed color fabrics[J]. Journal of Textile Research, 2018,39(10):38-43.
[9] 袁理, 王丹书, 谷迁, 等. 基于光谱泛相似测度的色纺纱线与织物间呈色规律[J]. 纺织学报, 2019,40(2):30-37.
YUAN Li, WANG Danshu, GU Qian, et al. The law of coloration between yarn-spun yarn and fabric based on spectral universal similarity measure[J]. Journal of Textile Research, 2019,40(2):30-37.
[10] ESTEVÃO Esmi, FRANCIELLE Santo Pedroa, LAÉCIO Carvalho de Barros, et al. Fréchet derivative for linearly correlated fuzzy function[J]. Information Sciences, 435(2018):150-160.
doi: 10.1016/j.ins.2017.12.051
[11] 焦洪赞, 王少宇, 彭正洪. 基于条件随机场的光谱相似性匹配高光谱遥感影像聚类方法[J]. 武汉大学学报(工学版), 2016,49(6):937-943.
JIAO Hongzan, WANG Shaoyu, PENG Zhenghong. A spectral similarity matching classifier based on conditional random field for hyperspectral remote sensing imagery[J]. Engineering Journal of Wuhan University, 2016,49(6):937-943.
[12] LI Q Z, ZHU C Y. Comparison of color measuring methods for yarn dyed woven fabrics[J]. Advanced Materials Research, 2012,441:651-655.
doi: 10.4028/www.scientific.net/AMR.441
[13] 刘沐黎, 袁理, 杨亚莉, 等. 基于混合色彩空间独立特征的色纺面料颜色表征模型[J]. 纺织学报, 2019,40(9):62-69.
LIU Muli, YUAN Li, YANG Yali, et al. Color representation model for pre-colored fiber blends based on independent component features from mixed color space[J]. Journal of Textile Research, 2019,40(9):62-69.
[14] 赵恒谦, 赵学胜, 岑奕, 等. 光谱特征提取对近似矿物光谱差异性影响分析[J]. 光谱学与光谱分析, 2017,37(3):869-874.
ZHAO Hengqian, ZHAO Xuesheng, CEN Yi, et al. Analysis of the influence of spectral feature extraction on the approximate mineral spectral difference[J]. Spectroscopy and Spectral Analysis, 2017,37(3):869-874.
[15] 程璐, 葛梦嘉, 曹吉强, 等. 成纱号数与捻系数对色纺纱色差影响的研究[J]. 棉纺织技术, 2020,48(4):25-29.
CHENG Lu, GE Mengjia, CAO Jiqiang, et al. Research on the influence of yarn number and twist coefficient on color difference of colored spinning yarn[J]. Cotton Textile Technology, 2020,48(4):25-29.
[1] . Parameter optimizing of Stearns-Noechel model in color matching of cotton colored spun yarn [J]. JOURNAL OF TEXTILE RESEARCH, 2018, 39(03): 31-37.
[2] . Aided design of harmony color style of bed clothes [J]. Journal of Textile Research, 2015, 36(06): 84-91.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备14006648号
Copyright 2021 © Editorial office of Journal of Textile Research
Supported by Beijing Magtech Co.Ltd