Journal of Textile Research ›› 2019, Vol. 40 ›› Issue (03): 44-48.doi: 10.13475/j.fzxb.20180202405

• Textile Engineering • Previous Articles     Next Articles

Friele color matching model of multi-channel rotor-spun mixed color yarn

YANG Ruihua(), XU Yaya, HAN Ruiye, XUE Yuan, GAO Weidong   

  1. Key Laboratory of Eco-Textiles(Jiangnan University), Ministry of Education, Wuxi, Jiangsu 214122, China
  • Received:2018-02-06 Revised:2018-12-18 Online:2019-03-15 Published:2019-03-15

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Abstract:

In order to explore the blending effect of multi-channeled rotor spun, the color matching model was established by Friele theory. Model parameters of the Friele model of digital mixed color mixed yarn was calculated by the reflection of the two-component and three-component samples spun by roving of red, yellow and blue, respectively, two-component and three-component model parameters were obtained and compared with model parameters calculated by other researchers. The results show that the four model parameters calculated by this experiment are better to predict the color characteristics of multi-channeled rotor spun color-blended yarn than those recommended by the other researchers for both the two-component and three-component samples. Among them, compared with the model parameters calculated by the assignment method, the model parameters related to wavelengths for predicting the average color difference value of two-component and three-component samples reduce by 0.42 and 0.48, respectively. When the tolerance range is 1, the sample qualification rate is improved by 33% and 50%, respectively. It is concluded that the model parameters calculated at various wavelengths could better predict the color of multi-channeled rotor spun color-blended yarn.

Key words: multi-channeled rotor spun, color-blended yarn of multi-primary-color, Friele model, blended color, model parameter

CLC Number: 

  • TS101.2

Fig.1

Drawing of multi-feeding part of rotor spun machine"

Tab.1

Color ratio of samples"

样本
编号		 mmm 样本
编号		 mmm 样本
编号		 mmm 样本
编号		 mmm 样本
编号		 mmm 样本
编号		 mmm
1 1∶0∶0 12 9∶1∶0 23 0∶2∶8 34 5∶1∶4 45 1∶2∶7 56 1∶4∶5
2 0∶1∶0 13 1∶0∶9 24 0∶3∶7 35 4∶1∶5 46 6∶3∶1 57 4∶5∶1
3 0∶0∶1 14 2∶0∶8 25 0∶4∶6 36 3∶1∶6 47 5∶3∶2 58 3∶5∶2
4 1∶9∶0 15 3∶0∶7 26 0∶5∶5 37 2∶1∶7 48 4∶3∶3 59 2∶5∶3
5 2∶8∶0 16 4∶0∶6 27 0∶6∶4 38 1∶1∶8 49 3∶3∶4 60 1∶5∶4
6 3∶7∶0 17 5∶0∶5 28 0∶7∶3 39 7∶2∶1 50 2∶3∶5 61 3∶6∶1
7 4∶6∶0 18 6∶0∶4 29 0∶8∶2 40 6∶2∶2 51 1∶3∶6 62 2∶6∶2
8 5∶5∶0 19 7∶0∶3 30 0∶9∶1 41 5∶2∶3 52 5∶4∶1 63 1∶6∶3
9 6∶4∶0 20 8∶0∶2 31 8∶1∶1 42 4∶2∶4 53 4∶4∶2 64 2∶7∶1
10 7∶3∶0 21 9∶0∶1 32 7∶1∶2 43 3∶2∶5 54 3∶4∶3 65 1∶7∶2
11 8∶2∶0 22 0∶1∶9 33 6∶1∶3 44 2∶2∶6 55 2∶4∶4 66 1∶8∶1

Fig.2

Relationship between σ values and ΣΔR. (a) ΣΔR of two component sample σ value; (b) ΣΔR of three component sample σ value"

Fig.3

Model parameters σ at each wavelength"

Tab.2

Color difference between actual and predicted two-component sample"

模型
参数		 样本色差
均值		 不同允差范围内样本合格率/%
ΔECMC<1 ΔECMC<2 ΔECMC<3
σ1 1.37 37 89 93
σ3 0.95 70 93 100
σ5 1.45 26 81 93
σ6 1.79 33 59 81

Tab.3

Color difference between actual and predicted three-component sample"

模型
参数		 样本色差
均值		 不同允差范围内样本合格率/%
ΔECMC<1 ΔECMC<2 ΔECMC<3
σ2 1.52 22 83 97
σ4 1.04 72 89 97
σ5 2.10 8 58 83
σ6 1.53 14 89 97
[1] 金亚琪, 邹专勇, 许梦露, 等. 色纺纱产品开发现状及技术发展需求[J]. 棉纺织技术, 2012,40(12):65-68.
JIN Yaqi, ZOU Zhuanyong, XU Menglu, et al. Development status and technology development demands of colored spun yarn[J]. Cotton Textile Technology, 2012,40(12):65-68.
[2] 杨兴华. 色纺纱吸引你了吗?[J]. 中国纺织报, 2015-12-14(6).
YANG Xinghua, Did the colored yarn attract you?[N]. China Textile News, 2015-12-14(6).
[3] 钱爱芬. 色纺纱线优势与技术发展方向?[J]. 中国检验检疫杂志, 2007(12):45-46.
QIAN Aifen. Color spinning yarn advantage and technology development[J]. China Inspection and Quarantine, 2007(12):45-46.
[4] YANG Ruihua, XUE Yuan, GAO Weidong. Structure and performance of color blended rotor spun yarn produced by a novel frame with asynchronous feed rollers[J]. Textile Research Journal, 2017, DOI: 10.1177/0040517517748493.
pmid: 1111270
[5] 杨瑞华, 薛元, 郭明瑞, 等. 数码转杯纺成纱原理及其纱线特点[J]. 纺织学报, 2017,38(11):32-35.
YANG Ruihua, XUE Yuan, GUO Mingrui, et al. Mechanism and characteristics of digital rotor spun yarn[J]. Journal of Textile Research, 2017,38(11):32-35.
[6] 薛元, 高卫东, 杨瑞华, 等. 三棉条异步输入和多级分梳的转杯纺纺纱方法及装置: 105063821A[P]. 2015-11-18.
XUE Yuan, GAO Weidong, YANG Ruihua, et al. Method and device for rotor spinning of three tampon asynchronous input and multi-stage carding: 105063821A[P]. 2015-11-18.
[7] 许佳艳. 涤棉双组份纤维混色计算机辅助配色的研究[D]. 杭州: 浙江理工大学, 2013: 62-63.
XU Jiayan. The study on computer aid matching for colored fiber blends of polyester and cotton[D]. Hangzhou: Zhejiang Sci-Tech University, 2013: 62-63.
[8] WALOWIT E. An algorithm for the optimization of Kubelka-Munk absorption and scattering coefficients[J]. Color Research and Application, 1987,12(6):340-343.
doi: 10.1002/(ISSN)1520-6378
[9] STEARNS E I, NOECHEL F. Spectrophotometric prediction of color of wool blends[J]. American Dyestuff Reporter, 1944,33(9):177-180.
[10] FRIELE L F C. The application of color measurement in relation to fiber-blending[J]. Journal of The Textile Institute, 1952,43:604-611.
[11] PHILIPS-INVERNIZZI B, DUPONT D, CAZE C. Formulation of colored fiber blends from Friele's theoretical model[J]. Color Research and Application, 2002,27(3):191-198.
doi: 10.1002/col.v27:3
[12] 沈加加, 胡英杰, 刘伟, 等. 基于Friele模型的色纺纱光谱配色研究[J]. 针织工业, 2013(5):32-36.
SHEN Jiajia, HU Yingjie, LIU Wei, et al. Study of spun-dyed yarns spectral color matching based on Friele model[J]. Knitting Industries, 2013(5):32-36.
[13] 董振礼, 郑宝海, 轷桂芬, 等. 测色与计算机配色[M]. 北京: 中国纺织出版社, 2017: 54-58.
DONG Zhenli, ZHENG Baohai, HU Guifen, et al. Color Measurement & Its Matching Computer [M]. Beijing: China Textile & Apparel Press, 2017: 54-58.
[1] . Research progress of computer color matching for colored spun yarn [J]. Journal of Textile Research, 2018, 39(11): 176-184.
[2] . Color fiber mixing formula algorithm based on Friele model [J]. JOURNAL OF TEXTILE RESEARCH, 2017, 38(12): 33-37.
[3] . Visualization simulation technolohy of cloth deformation based on mass-spring model and its prospect [J]. JOURNAL OF TEXTILE RESEARCH, 2013, 34(3): 147-153.
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