[1]杨瑞华,王 卓.基于Friele模型的转杯纺黏胶混色针织物测配色系统[J].服装学报,2023,8(01):31-36.
 YANG Ruihua,WANG Zhuo.Color Matching Model of Viscose Color Blended Fabric Based on Friele Model[J].Journal of Clothing Research,2023,8(01):31-36.
点击复制

基于Friele模型的转杯纺黏胶混色针织物测配色系统()
分享到:

《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第8卷
期数:
2023年01期
页码:
31-36
栏目:
针织服装
出版日期:
2023-02-28

文章信息/Info

Title:
Color Matching Model of Viscose Color Blended Fabric Based on Friele Model
作者:
杨瑞华;  王 卓
江南大学 生态纺织教育部重点实验室, 江苏 无锡 214122
Author(s):
YANG Ruihua;  WANG Zhuo
Key Laboratory of Eco-Textile, Ministry of Education, Jiangnan University, Wuxi 214122, China
分类号:
TS 182.6
文献标志码:
A
摘要:
以红、黄、蓝3色原液着色黏胶短纤维为原料,采用多通道转杯纺技术,以质量比为10%的梯度纺制66种混色纱线,制备针织物样品,利用分光光度计测试其颜色特征。对Friele模型的关键参数σ在[0,1]内进行赋值以预测样品色彩,计算得出σ=0.134时双组分混色样品平均色差最小; 取该值构建基于Friele模型的多通道转杯纺黏胶织物配色系统,利用全光谱配色法和所建模型预测3组分混色样品的配方比例,所得预测比例与实际比例间的平均比例误差为10.21%,平均色差为0.456 1。研究结果验证了所建Friele模型的准确性,并为完善多通道转杯纺黏胶混色纺织品智能配色系统提供了依据。
Abstract:
66 kinds of color blended yarns were produced by using red, yellow and blue dope dyeing viscose fiber on the multi-channel rotor spinning frame with a gradient of 10%. Knitting sample fabrics were made of blended yarn and then the color were measured with a spectrophotometer. In this paper, the model parameter σ of Friele model was assigned in [0,1], and the value of σ 0.134 was taken as the optimal value with the minimum average chromatic aberration of two-component mixed color samples, and a color matching system based on Friele model was constructed. Besides, the optimal σ value was verified by full spectrum color matching method. The error of average proportion between the tested value and the predicted value of the three-component mixed color samples was 10.21%, and the value of average chromatic aberration was 0.456 1. The result shows that the parameter of Friele model obtained in this paper have good prediction effect. It provides a basis to set the intelligent color matching system of viscose blended yarn in multi-channel rotor spinning.

参考文献/References:

[1] 景慎全. 中国色纺纱行业的技术进步和发展趋势[J]. 纺织导报, 2020(6): 22-24, 26.
JING Shenquan. Technological progress and development trend of China’s colored spun yarn industry[J]. China Textile Leader, 2020(6): 22-24, 26.(in Chinese)
[2] 孙芮, 程新雅. 再生纤维素纤维定性鉴别的微观研究[J]. 轻纺工业与技术, 2020, 49(7): 112-113.
SUN Rui, CHENG Xinya. Microscopic study on qualitative identification of regenerated cellulose fiber[J]. Light and Textile Industry and Technology, 2020, 49(7): 112-113.(in Chinese)
[3] 刘稀, 王冬, 张丽平, 等. 低折射率树脂对原液着色黏胶纤维结构和性能的影响[J]. 纺织学报, 2020, 41(7): 9-14.
LIU Xi, WANG Dong, ZHANG Liping, et al. Effect of low refractive resin on structure and properties of spun-dyed viscose fibers[J]. Journal of Textile Research, 2020, 41(7): 9-14.(in Chinese)
[4] 李世雄, 张生辉, 樊争科, 等. 原液着色涤黏多组分混纺纱的生产[J]. 棉纺织技术, 2018, 46(8): 59- 61.
LI Shixiong, ZHANG Shenghui, FAN Zhengke, et al. Production of mass coloration polyester viscose multicomponent blended yarn[J]. Cotton Textile Technology, 2018, 46(8): 59- 61.(in Chinese)
[5] 沈加加, 张志强, 陈燕兵, 等. 基于Stearns-Noechel模型的混色毛条颜色预测[J]. 纺织学报, 2008, 29(11): 61- 66.
SHEN Jiajia, ZHANG Zhiqiang, CHEN Yanbing, et al. Match prediction for blended-color wool tops based on Stearns-Noechel model[J]. Journal of Textile Research, 2008, 29(11): 61- 66.(in Chinese)
[6] 余谦. 赛络纺技术在混色纱中的实践及应用[J]. 现代纺织技术, 2001, 9(4): 32-33.
YU Qian. Practice and application of siro spinning technology in mixed color yarn[J]. Advanced Textile Technology, 2001, 9(4): 32-33.(in Chinese)
[7] 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.(in Chinese)
[8] 邓茜茜, 杨瑞华, 徐亚亚, 等. 转杯纺混色棉纱的纤维混合均匀度[J]. 纺织学报, 2019, 40(7): 31-37.
DENG Qianqian, YANG Ruihua, XU Yaya, et al. Study on mixing uniformity of fibers in rotor-spun mixed yarns[J]. Journal of Textile Research, 2019, 40(7): 31-37.(in Chinese)
[9] 韩瑞叶, 杨瑞华, 薛元, 等. 数码转杯纺的Stearns-Noechel配色模型[J]. 纺织学报, 2017, 38(12): 27-32, 42.
HAN Ruiye, YANG Ruihua, XUE Yuan, et al. Stearns-Noechel color matching model of digital rotor spinning[J]. Journal of Textile Research, 2017, 38(12): 27-32, 42.(in Chinese)
[10] 徐亚亚, 杨瑞华, 邓茜茜. 多通道转杯纺羊毛织物的Stearns-Noechel配色模型[J]. 东华大学学报(自然科学版), 2020, 46(3): 357-361.
XU Yaya, YANG Ruihua, DENG Qianqian. Stearns-Noechel color matching model for multi-channel rotor spun wool fabric[J]. Journal of Donghua University(Natural Science), 2020, 46(3): 357-361.(in Chinese)
[11] STEARNS E I, NOECHEL F. Spectrophotometric prediction of color of wool blends [J]. American Dyestuff Reporter, 1944, 33(9):177-180.
[12] BURLONE D A. Formulation of blends of precolored nylon fiber[J]. Color Research and Application, 1983, 8(2): 114-120.
[13] FRIELE L F C. The application of colour measurement in relation to fibre-blending[J]. Journal of the Textile Institute Proceedings, 1952, 43(8): 604- 611.
[14] DUNTLEY S Q. The prediction and control of colored fiber blends by optical means [J]. American Dyestuff Reporter, 1941, 30:689-700.
[15] 杨瑞华, 王卓, 邓茜茜, 等. 多通道转杯纺羊毛混色织物的Friele模型[J]. 服装学报, 2020, 5(1): 1-5.
YANG Ruihua, WANG Zhuo, DENG Qianqian, et al. Friele model of color mixing wool fabric produced by multi-channel rotor spun yarn[J]. Journal of Clothing Research, 2020, 5(1): 1-5.(in Chinese)
(责任编辑:邢宝妹)

更新日期/Last Update: 2023-02-28