Research on the Spectral Prediction Model of Gravure Spot Color Scale Based on Density
HAI Jing-pu1, 2, GUO Ling-hua1, 2*, QI Yu-ying1, 2, LIU Guo-dong1, 2
1. College of Bioresources Chemical and Materials Engineering, Shaanxi University of Science and Technology, Xi’an 710021, China
2. Key Laboratory of Functional Printing and Transport Packaging of China National Light Industry, Shaanxi University of Science and Technology, Xi’an 710021, China
Abstract:A model for predicting spectral reflectance of gravure spot color scales is proposed based on the relationship between density and spectral reflectance. Firstly, this method establishes the relationship between the solid spectral reflectance and its density according to the definition of density, and establishes the calculation method of the tone spectral reflectance based on the solid spectral reflectance. Then, according to the superposition principle of density, assuming that the proportional relationship between tone density and solid density is established, the relationship between tone density solid density and substrate density is established. Finally, combined with calculating the tone spectral reflectance, a spectral reflectance prediction model of the gravure spot color scale is established. Thirty kinds of spot color inks are mixed and used to print samples by gravure printing. The prediction model is verified by the coefficient of determination R2 and the color difference. The experimental results show that the proportional coefficients of the actual tone density and the actual solid density are the same under the same dot area rate of different spot colors, and the determination coefficients R2 of both are greater than 0.98. Based on this relationship, the prediction model established in this paper has a high determination coefficient at different dot area rates, the root mean square error is less than 0.01, and the maximum color difference is 2.667 NBS. Finally, another ten different spot color inks are prepared to print simples under the same process conditions, and the proportion coefficient between the actual tone density and the actual solid density is used to verify the accuracy of the model in predicting the tone spectral reflectance of spot color ink by color difference formula. The color difference results show that 82.12% of the color difference is less than 2.5 NBS, most of the color difference is between 0.5~2 NBS, accounting for 58.32% of the total frequency, and the average color difference is 1.58 NBS, which meets the requirements of enterprises for fine reproduction of colors. It is verified that the model has high accuracy for predicting the spectral reflectance of the gravure spot color scale, and it can provide a scientific method for digital proofing instead of gravure machine proofing.
Key words:Ink density; Spectral reflectance; Spot color scale; Prediction model
海敬溥,郭凌华,戚瑜颖,刘国栋. 基于密度的凹版专色梯尺光谱预测模型的研究[J]. 光谱学与光谱分析, 2023, 43(01): 31-36.
HAI Jing-pu, GUO Ling-hua, QI Yu-ying, LIU Guo-dong. Research on the Spectral Prediction Model of Gravure Spot Color Scale Based on Density. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(01): 31-36.
[1] Su H, Yi Y H, Liu J H, et al. Applied Mechanics and Materials, 2013, 262: 74.
[2] LI Yu-mei, HE Song-hua, CHEN Hao-jie, et al(李玉梅, 何颂华, 陈浩杰, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2018, 38(8): 2542.
[3] Coppel L G, Slavuj R, Hardeberg J Y. Applied Optics, 2016, 55(5): 1138.
[4] Mazauric S, Hébert M, Fournel T. Journal of the Optical Society of America A, 2018, 35(2): 244.
[5] Hébert M, Hersch R D. Color Research & Application, 2015, 40(4): 383.
[6] HE Xiao-min, WANG Ying, KE Neng, et al(何晓敏, 王 颖, 柯 能, 等). The Journal of Light Scattering(光散射学报), 2016, 28(1): 65.
[7] Moghareh Abed F, Berns R S. Color Research & Application, 2017, 42(3): 308.
[8] DONG Na, CHENG Peng-fei, MENG Fan-jing, et al(董 娜, 程鹏飞, 孟凡净, 等). Digital Printing(数字印刷), 2020,(5): 76.
[9] Hersch R D, Brichon M, Bugnon T, et al. Color Research & Application, 2009, 34(6): 432.
[10] LIU Hao-xue(刘浩学). Printing Chromatics(印刷色彩学). Beijing: China Light Industry Press(北京:中国轻工业出版社),2014.
[11] ZHENG Yuan-lin(郑元林). Printing Quality Inspection and Control Technology(印刷品质量检测与控制技术). Beijing: Chemical Industry Press(北京:化学工业出版社),2010.
[12] Shamey R, Cao R, Tomasino T, et al. Journal of the Optical Society of America A, 2014, 31(6): 1328.
[13] Melgosa M, Alman D H, Grosman M, et al. Color Research & Application, 2013, 38(6): 429.
