A Study of Digital Print Design and Quality Reproduction

• Main Authors: CHANG, FU-LING, 張輔玲
• Other Authors: GUAN, SHING-SHENG
• Format: Others
• Language: zh-TW
• Published: 2015
• Online Access: http://ndltd.ncl.edu.tw/handle/77057488879505271485

博士 === 國立雲林科技大學 === 設計學研究所 === 103 === The objective of this research is to investigate the reproducibility quality of digital printing and designs. Based on the findings, solutions on improvements and corrections of color quality of digital printing will be proposed, as well as parameters for different formulations can be provided to the industry as the strategic base for the research and development of Taiwan made dye-sublimation transfer paper. The research explores the issues concerning reproducibility quality of digital textile printing and designs from a practical prospective, utilizing top-down design flow to reach mechanism for mass production quality control, and to introduce quality standards for establishment of methods for preventive design. Personal traits, preference degree on fabric, print patterns and colors design were also analyzed in order to enhance the quality control at the design stage. The main formulation screening uses calcium carbonate (CaCO3), silicon dioxide (SiO2), Talcum powder (Talc), Taiwan sericite (Sericite) to develop ten coating formulas, based on the dye properties. The industry widely used Swiss and Korean papers will serve as control samples, and experimental samples were assessed based on the patented "textile color control guide table" proposed by the author. Methods of Experimental design, structured self-report questionnaire, and statistical analysis were adopted on eight digital printed fabrics with different coating formulas for verification analysis. The study indicates below 6 findings： 1. The "textile color control guide table” is a preventive tool for top-down design flow. 2. Positive correlation between digital color printing quality and coating formulations. 3. For color quality reproduction ： Swiss paper formula 6 (CaCO3/Talc)＞formula 8 (SiO2 /Talc)＞formula 9 (SiO2/Sericite); Korean paper formula 9 (SiO2/Sericite)＞ formula 1 (CaCO3)＞formula 8 (SiO2/Talc). 4. Different formulations coated paper, ink absorption property, best formula ranking ： formula 6 (CaCO3/Talc)＞formula 4 (Sericite)＞formula 2 (SiO2). 5. Correlation exists between color preferences degree and ages. 6. For the analysis on the popularity of patterns, the optimum types are patterns 6 and 2, the second best types are patterns 3, 5, 7, and 1.