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Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 3, Issue 4, Pages 756-770, DOI: https://doi.org/10.21307/ijssis-2017-419
License : (CC BY-NC-ND 4.0)
Published Online: 13-December-2017
In this paper, the authors proposed a novel idea of a long-reach flying inkjet system employing electrostatically-accelerated ink drop for the purpose of functional ink micro pattern plotting by contact-free and environment friendly. Proposed working principle was demonstrated through experiment and analysis. At the 5-mm of electrode gap and φ120mμof nozzle, the applicable maximum voltage was 3.5kV realizing 67% up (1.67 times) of droplet flying velocity by one-step of accelerating. By φ10mμof droplet, over 35m/s of flying velocity was promising and by 2~3 steps of accelerating further of speed increment could be expected.
 Kazuhiro MURATA, “Super Fine Patterning by Using Inkjet Technology”, Japan Institute of Electronics Packing (JIEP), Vol.7, No.6, 2004, pp. 487-490.
 Shiri SAKAI, “The Printed circuit Board Manufacturing Using Inkjet Technology”, The Institute of Electronics Information and Communication Engineers (IEICE), Vol. 90, No. 7, (2007), pp. 544-548.
 H.P. Le, “Progress and trends in ink-jet printing technology”, J. Imaging Science of Technology, Vol. 42, No. 2, (1998), pp. 49-62.
 Y. Hagio, H. Kurosawa, W. Ito, and T. Shimoda, “Development of ink jet wiring technology”, Proceedings of ICEP2005 (International Conference on Electronics Packaging), TA I-5, pp. 106-111, 2005.
 K. kitahara etc., “Latest inkjet technology - technical advantages and industrial application developments -”, Technical Information Society, ISBN9784861041822, 2007, pp. 213-236,294-302.
 Nakano juniti etc.,“Latest inkjet technology know-how collection – high-definition, high-resolution, high-speed, fine wiring, thin film”, Technical Information Society, ISBN4861040620, 2005, pp. 28-38.
 Nomura Syunji, “Various types of inkjet technology and countermeasure for it’s deficits”, Information organization, ISBN9784901677943, 2008, pp. 2-8.
 Hara Endo, “Bubble jet print”, Journal of IIEEJ (The Institute of Image Electronics Engineers of Japan), No. 11, (1982), pp. 66-71.
 A. Asai, “Bubble dynamics in boiling under high heat flux pulse heating”, ASME J. Heat Transfer, Vol. 113, (1991), pp. 973-979.
 Nakasima, “Latest bubble jet technology”, Journal of the Imaging Society of Japan, No. 140, (2002) , pp. 37-44.
 Tae Coo Kang etc. “Droplet volume adjustable micro injectors using a micro-heater array”, IEEE Journal of Micro-electro-mechanical Systems 16th IEEE International Conference (2003) 690-693.
 H. Kuninaka, “Microwave Discharge Ion Engines onboard HASABUSA Asteroid Explorer”, Journal of. Plasma and Fusion Research, Vol82. No.5 (2006) 300-305.
 Oleg. V. Salata, “Tools of nanotechnology: Electrospray”, Current Nanosience, (2005) 1, 25-33.