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基于Friele模型的色纺纱光谱配色研究 被引量:17

Study of Spun- dyed Yarns’Spectral Color Matching Based on Friele Model
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摘要 色纺纱的配色是纺织颜色领域有待解决的一个课题。文中详细介绍了基于Friele模型的色纺纱计算机光谱配色原理,优化了Friele模型参数σ,获得的羊毛色纺纱参数σ为0.093,棉色纺纱参数σ为0.128,并介绍了色纺纱计算机配色的算法流程。同时,利用自行开发的配色软件进行了配色实践。结果表明,色差不是评估色纺纱配色准确性的唯一指标,色纺纱配色中还存在"同谱异色"问题,目前主要依靠经验辨别。文中的研究为色纺纱计算机配色理论的发展奠定了一些研究基础。 Abstract:Matching colors of spun-dyed yarn is one problem to be solved in textile color field. Spun-dyed yarn's computerizd spectral color matching principle based on Friele Model was stated in this article, and the pa- rameter or of Friele Model was optimized. The results show that the parameter cr for spun dyed wool yarn is 0.093, while cotton parameter or is 0.128. The calculation flow of spun-dyed yarn's computerized color matching was intro- duced, and the matching practice was done by using self-developed matching software. It indicates that color differ- ence is not the only index for the accurate assessment of spun-dyed yarn's color matching, there is "heterochrome with same spectrum" problem, which can be distinguished only by experience. The study of this article establishes some research foundation for the development of spun-dyed yarn's computerized color matching theory.
作者 沈加加 胡英杰 刘伟 夏丽华
机构地区 嘉兴学院 浙江华孚色纺有限公司
出处 《针织工业》 北大核心 2013年第5期32-36,共5页 Knitting Industries
基金 嘉兴市"现代纺织科技"创新团队开放基金项目(MTC2011-002)
关键词 色纺纱 配色理论 计算机 Friele模型 光谱配色 色差 同谱异色 Spun-dyed Yarn Color Matching Theory Computer Friele Model Spectral Matching ColorDifference Heterochrome with Same Spectrum
分类号 TS193.13 [轻工技术与工程—纺织化学与染整工程]
  • 相关文献

参考文献14

  • 1BURLONE DA. Theoretical and practical aspects of selected fiber-blend color formulation functions [Jl. Color Re- search and Application, 1984,9 (4) : 213- 219.
  • 2STEARNS E I, NOECHEL F. Spec- trophotometric prediction of color of wool blends [J]. American Dyestuff Reporter, 1944, 33(9):177-180.
  • 3FRIELE L F C. The apphcation of color measurement in relation to fiber- blending[J]. Journal of Textile Institute,1952, 43: 604-611.
  • 4DAVIDSON H R, TAYLOR M. Pre- diction of color of fiber blends [J]. Jour- nal of The Optical Society of America, 1965, 55(1 ) :96-100.
  • 5AMIRSHAHI S H, PAILTHORPE M T.Applying the kubela-munk equation to explain the color of blends preared from precolored fibers [J].Textile Research Journal, 1994,64(6) :357-364.
  • 6LI R, FENG G U. Tristimulus algo- rithm of colour matching for precolored fiber blends based on the stearns- noechel model [J]. Coloration Technolo- gy, 2006, 122: 74-81.
  • 7李戎,宋阳,顾峰.基于Stearns-Noechel模型的纤维光谱配色算法[J].纺织学报,2007,28(1):77-80. 被引量:18
  • 8沈加加,张志强,陈燕兵,罗晓菊,陈维国.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. 被引量:21
  • 9沈加加,程凤侠,陈维国,李茹珍.Stearns-Noechel模型优化及毛条混色配色系统开发[J].纺织学报,2009,30(3):121-125. 被引量:7
  • 10陈维国,周华,温泉,沈加加,李茹珍.羊毛混色纺纱计算机智能测色配料系统[J].毛纺科技,2010,38(4):48-52. 被引量:8

二级参考文献41

  • 1王晋海,窦明.颜色管理的标准化(Ⅰ)[J].现代涂料与涂装,2005,8(1):50-52. 被引量:18
  • 2李戎,宋阳,顾峰.基于Stearns-Noechel模型的纤维光谱配色算法[J].纺织学报,2007,28(1):77-80. 被引量:18
  • 3Philips Invemizzi B, Dupont D, Caze C. Sustainability and recycling of textile materials[C]//Proceedings of the Spring 2000 Meeting of the Fiber Society. Guimaraes (Portugal) : University of Minho, 2000:53 - 56.
  • 4Burlone D A. Theoretical and practical aspects of selected fiber-blend color formulation functions [ J]. Color Research and Application, 1984,9(4) :213 - 219.
  • 5Stearns E I, Noechel F. Speetrophotometric prediction of color of wool blends [ J ]. American Dyestuff Reporter, 1944,33(9) : 177 - 180.
  • 6Friele L F C. The application of color measurement in relation to fiber-blending [ J]. Journal of Textile Institute 1952,43:604 - 611.
  • 7Philips Invemizzi 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.
  • 8Philips Invemizzi B, Dupont D, Jolly A, et al. Color formulation by fiber blending using the Stearns-Noechel model [J]. Color Research and Application, 2002, 27(2) : 100- 107.
  • 9Li Rong, Feng G U. Tristimulus algorithm of colour matching for precolored fiber blends based on the Steams- Noechel model [ J ]. Coloration Technology, 2006, 122 : 74 - 81.
  • 10Judd D B. Chromaticity sensibility to stimulus differences[J]. J Opt Soc AM,1932,22: 72- 108.

共引文献32

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引证文献17

二级引证文献59

针织工业
2013年 第5期

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