馬賽克式畫素條紋塗佈法研究

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姓名

高尉華(Wei-hua Gao) 查詢紙本館藏

畢業系所

機械工程學系

論文名稱

馬賽克式畫素條紋塗佈法研究
(Stripe coating in mosaic color filter manufacturing)

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★ TFT-LCD狹縫式塗佈研究	★ 彩色濾光片噴塗研究

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至系統瀏覽論文 ( 永不開放)

摘要(中)

本研究結合狹縫式塗佈與噴墨式塗佈的設計，開發出新式的條紋式塗佈機台，以此機台研究條紋式塗佈斜向塗佈法，並運用此法製造馬賽克式子像素排列之彩色濾光片。塗佈過程中透過即時監視塗佈液珠之變化，發現塗佈液珠寬度會隨著塗佈頭所行經之溝槽寬度變化而改變，這種現象有效抑制了塗佈液在斜向塗佈時外溢至鄰接色區的可能性，並支持了條紋式塗佈斜向塗佈法用於製造馬賽克式子像素排列之彩色濾光片的概念。本研究不但成功地在馬賽克式排列的黑色矩陣上塗佈出單色的條紋，更進一步針對流體流率、塗佈頭行進速度以及流體黏度等變因對條紋式塗佈的影響進行探討，發現在固定塗佈頭行進速度的條件下，若流體黏度越高，則需要大的流體流率才能成功塗佈；若黏度越低，則所需要的流體流率就越小。

摘要(英)

This study develops a new stripe coating equipment to investigate the manufacturing method of mosaic color filter. By observing the changing of liquid bead in coating process, we find the width of liquid bead will change with the changing width of channel. This phenomenon decreases the possibilities of overflow and support our idea of stripe coating in mosaic color filter manufacturing. We also investigate the influence of viscosity, flow rate and coating speed and find that with constant coating speed, flow rate will increase with the increase of viscosity.

關鍵字(中)

★ 馬賽克
★ 條紋式塗佈
★ 彩色濾光片
★ 塗佈液珠

關鍵字(英)

★ stripe coating
★ mosaic
★ color filter
★ liquid bead

論文目次

摘要 Ⅰ
英文摘要 Ⅱ
致謝 Ⅲ
目錄 Ⅳ
表目錄 Ⅵ
圖目錄 Ⅶ
符號表 Ⅸ
第一章緒論 1
1-1 前言 1
1-2 研究動機 3
1-3 文獻回顧 4
1-3-1 彩色濾光片之相關研究 4
1-3-2 濕式塗佈技術相關研究 8
1-3-3 噴墨塗佈法相關研究 12
1-3-4 條紋式塗佈法相關研究 15
第二章實驗設備與方法 17
2-1 實驗設備 17
2-2 實驗步驟 22
第三章實驗結果與討論 24
3-1 條紋式塗佈之塗佈液珠觀察 25
3-1-1 塗佈液珠的架橋現象 25
3-1-2 殘餘液體對塗佈液珠的影響 26
3-1-3 塗佈進行中的液珠寬度變化 28
3-2 條紋式塗佈之塗佈視窗的建立 29
3-2-1 塗佈缺陷的定義 29
3-2-2 黏度對條紋式塗佈之影響 30
第四章結論 32
參考文獻 34

參考文獻

1. R. W. Sabnis, “Color Filter Technology for Liquid Crystal Displays”, Displays, Vol. 20, pp. 119-129, 1999
2. F. P. Fehlner, “Thin Films on Glass for Liquid Crystal Displays”, Journal of Non-Crystaline Solids, Vol. 218, pp. 360-367, 1997
3. M. Katayama, “TFT-LCD Technology”, Thin Solid Films, Vol. 341, pp. 140-147, 1999
4. P. Haaland, J. MacKibben, and M. Parodi, “The Art and Science of Thin Film Coating: a Progress Report”, Solid State Technology, Vol. 38, pp. 83-85, 1995
5. S. Bagen, H. Melgaard, C. Minnich, C. Newquist, and G. Gibson, “Novel Low Cost Process Technologies for Application and Curing of Polyimide Films”, International Journal of Microcircuits and Electronic Packaging, Vol. 19, pp. 418-426, 1996
6. 陳欣志，「條紋式塗佈製造彩色濾光片研究」，國立中央大學，碩士論文，民國九十五年
7. 顧鴻壽，「光電液晶平面顯示器技術基礎及應用」，二版，新文京開發，台北縣，民國九十三年
8. K. Cheng, K. H. Wu, T. Y. Yang, and J. Chen, “A Novel Application of Ink-Jet Printing Technology on Manufacturing Color Filter for Liquid Crystal Display”, NIP17:International Conference on Digital Printing Technologies, pp. 739-743, 2001
9. L. Landau, and B. Levich, “Dragging of a Liquid by a Moving Plate”, Acta Physicochim URSS., Vol. 17, pp. 42-54, 1942
10. K. J. Ruschak, “Limited Flow in a Pre-Metered Coating Device”, Chemical Engineering Science, Vol. 31, pp. 1057-1060, 1976
11. B. G. Higgins, and L. E. Scriven, “Capillary Pressure and Viscous Pressure Drop Set Bounds on Coating Bead Operability”, Chemical Engineering Science, Vol. 35, pp. 673-682, 1980
12. K. Y. Lee, L. D. Liu, and T. J. Liu, “Minimum Wet Thickness in Extrusion Slot Coating”, Chemical Engineering Science, Vol. 47, pp. 1703-1713, 1992
13. E. B. Gutoff, and C. E. Kendrick, “Low Flow Limits of Coatability on a Slide Coater”, AIChE Journal, Vol. 33, pp. 141-145, 1987
14. T. M. Sullivan, and S. Middleman, “Film Thickness in Blade Coating of Viscous and Viscoelastic Liquids”, Journal of Non-Newtonian Fluid Mechanics, Vol. 21, pp. 13-38, 198, 1986
15. S. Bagen, H. Melgaard, C. Minnich, C. Newquist, and G. Gibson, “Novel Low Cost Process Technologies for Application and Curing of Polyimide Films”, International Journal of Microcircuits and Electronic Packaging, Vol. 19, pp. 418-426, 1999
16. R. H. Beck, and F. N. J. Haven, “Extrusion Apparatus and Processes of Extruding”, United States Patent, 2,901,770, 1959
17. K. A. Mainstone, “Internal and External Combining System for Slot Die Co-extrusion”, AGARD Conference Proceedings, Vol.65, pp. 47-52, 1978
18. N. Chino, Y. N. Shibata, Hiraki, and T. Sato, “Extrusion Type Coating Head for Coating A Magenic Recording Medium”, United States Patent, 5,072,688, 1991
19. M.Haberer, G. Zak, C. B. Park, M. Paraschivoiu, and B. Benhabib, “Fluid Mechanics of Slot-Coating in Photopolymer-Based Rapid Composites Manufacturing”, Journal of Mechanical Engineering Science, Vol. 217, pp. 65-80, 2003
20. H. P. Le, “Progress and Trends in Ink Jet Printing Technology”, Journal of Imaging Science and Technology, Vol. 42, pp. 49-62, 1998
21. B. Jurgen, and A. M. Grishin, “Piezoelectric Shear Mode Drop-on-Demand Inkjet Actuator”, Sensors and Actuators, A: Physical, Vol. 101, pp. 371-382, 2002
22. J. T. Yeh, “Simulation and Industrial Applications of Inkjet”, The 7th National Computational Fluid Dynamics Conference, Kenting, Taiwan, 2000
23. F. G. Tseng, C. J. Kim, and C. M. Ho, “High-Resolution High-Frequency Monolithic Top-Shooting Microinjector Free of Satellite Drops - Part I: Concept, Design, and Model”, Journal of Microelectromechanical system, Vol. 11, pp. 427-436, 2002
24. H. C. Lee, “Drop Formation in a Liquid Jet”, IBM Journal of Research and Development, pp. 364-369, 1974
25. W. T. Pimbley, and H. C. Lee, “Satellite Droplet Formation in a Liquid Jet”, IBM Journal of Research and Development, Vol. 21, pp. 21-30, 1977
26. C. F. Hsu, and N. Ashgriz, “Impaction of a Droplet on an Orifice Plate”, Physics of Fluids, Vol. 16, pp. 400-411, 2004
27. M. Watanabe, “Coating Device and a Method of Coating”, United States Patent, 5,700,325, 1997
28. T. J. Liu, and Y. W. Yu, “Apparatus and Method for Forming A Coating Layer of Multiple Stripes”, United States Patent, 6,159,544, 2000
29. T. J. Liu, and Y. W. Yu, “Die Set For Preparing ABCABC Multiple-Stripe Coating”, United States Patent, 6,423,140 B1, 2002
30. 方聰偉，「微米級條紋式塗佈」，國立清華大學，碩士論文，民國九十二年

指導教授

周復初(Fu-chu Chou)

審核日期

2007-7-13

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