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Please use this identifier to cite or link to this item: https://ah.nccu.edu.tw/handle/140.119/75563


Title: The study on color quality attributes of IMR with PET on white ink by UV inkjet
Authors: Chen, C.L.;Chang, Y.T.;Taso, Sheng Hao
Contributors: 資管系
Keywords: Ink;Ink jet printing;Molds;Offset printing;Polyethylene terephthalates;Rollers (machine components);Color difference;Color quality;Color variance;Gravure printing;Personalized printing;Print contrast;Printing process;UV inkjet;Color
Date: 2014-06
Issue Date: 2015-06-04 13:51:09 (UTC+8)
Abstract: The In-Mold Roller is a revolutionary printing process by which objects are 3D decorated. Products decorated by In-Mold Roller are waterproof and protected from fading. What's more, these kinds of decorations strongly increase the beauty, desirability and value of the objects. The In-Mold Roller is now using either of gravure printing and screen printing to print PET film. However, there are some problems with these two techniques. This research is to investigate potential usages of combining In-Mold Roller with digital UV inkjet printing in 3D decoration, e.g. in personalized printing services. Study results found that when the coverage and the resolution of inkjet printing become higher, the SIDs will become higher as well. When transferred to ABS, SIDs in each combination will increase. Each combination of inkjet conditions, with the isolation of white ink, color differences are less variant. TVIs of white ink decrease 30% to 40% halftone and display in "M" type. In print contrast, C and K colors of each combination are better than M and Y colors. After transferred into print contrast, each combination of PC will be higher about 2 to5. When transferred to ABS, color variances of each combination are not huge, and color differences are about 3to5. © (2014) Trans Tech Publications, Switzerland.
Relation: Advanced Materials Research, Volume 1004-1005, 2014, Pages 799-802, 4th International Conference on Advanced Engineering Materials and Technology, AEMT 2014; Xiamen; China; 14 June 2014 到 15 June 2014; 代碼 107136
Data Type: conference
DOI link: http://dx.doi.org/10.4028/www.scientific.net/AMR.1004-1005.799
Appears in Collections:[Department of MIS] Proceedings

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