Inkjet Printing of UV Curable Character Ink and Control of the Dried Droplets Size

Jiang Zhong Hang; Yin Yin Cheng; Jie Li; Li Yi Shi; Mei Hong Zhang

doi:10.4028/www.scientific.net/AMR.463-464.1368

Paper Titles

Photoacoustic Imaging Based on Limited-Aperture of Transducer
p.1346

Simulation and Experimental Study of FRD Snubber Circuits in Buck Converter
p.1350

Study on the Technology of MPLS in Wide Area Protection System
p.1355

Effect of 7050 Aluminium Alloy Microstructure on Residual Stress by Laser Shock Processing
p.1363

Inkjet Printing of UV Curable Character Ink and Control of the Dried Droplets Size
p.1368

Investigation of the Scanning Angle and the Orientation of the Absorber Effects on the Photoacoustic Tomography Imaging
p.1373

MMA-Grafted PE Separators of Lithium-Ion Battery Prepared by UV-Radiated Grafting
p.1378

Multiband Techniques of LED and UV Materials on Visualization of Needle Marks
p.1382

Structural Variation of Transition Metal - Fullerene Thin Films Modified by Thermal Annealing and Ion or Laser Beam Bombardment
p.1387

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 463-464Inkjet Printing of UV Curable Character Ink and...

Inkjet Printing of UV Curable Character Ink and Control of the Dried Droplets Size

Abstract:

In this paper an UV-curable character ink with high dispersion and stability was prepared based on acrylic resin, acrylic monomer, photo-initiator, pigment and other additives. The viscosity, particle size and surface tension of the ink were 18~22mPas, 310~330 nm and 22~25 mNm-1 at 25oC, respectively. These features showed the possibility to inkjet printing the ink on printed circuit board (PCB). Inkjet printing with high resolution can be achieved by varying the dried droplet diameter. Applied voltage and temperature during the jetting process influenced the diameter of dried droplet.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 463-464)

Pages:

1368-1372

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.463-464.1368

Citation:

Cite this paper

Online since:

February 2012

Authors:

Jiang Zhong Hang, Yin Yin Cheng, Jie Li, Li Yi Shi, Mei Hong Zhang

Keywords:

Dispersion Stability, Dried Droplet Diameter, Inkjet Printing, Storing Stability, UV Curable Character Ink

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Taik-Min Lee, Yong-Jung Choi, Su-Yong Nam, Choon-Woo You, Dae-Yup Na, Hyeon-Cheol Cho, Dong-Youn Shin, Kwang-Young Kim, Kwang-Il Jung: Thin Solid Films(2008).

DOI: 10.1109/isocc.2014.7087679

Google Scholar

[2] P.J. Holmes, R.G. Electrochemical Publication Limited, (1976).

Google Scholar

[3] Seung-Tae Lee, Shin-Wook Jeon, Byung-Joo Yoo, Seung-Don ChoiHyeong-Jin Kim, Sung-Man Lee: Power Sources (2006).

Google Scholar

[4] M. Mäntysalo and P. Mansikkamäki: 23rd International Conference on Digital Printing Technologies, (2007), p.813–817.

Google Scholar

[5] Berend-Jan de Gans and Virichs, Schubert. Langmuir (2004).

Google Scholar

[6] H. Sirringhaus,T. Kawase1,R. H. Friend,T. Shimoda, M. Inbasekaran,W. Wu and E. P. Woo: Science (2000).

Google Scholar

[7] ZOHAR, RON, MOZEL, Jacob, SAMUEL, Joshua: WO 0, 246, 323. (2002).

Google Scholar

[8] Tuladhar TR, Mackley MR: submitted to Journal of Non-Newtonian Fluid Mech (2008).

Google Scholar

[9] Mustapha Chouiki, Rainer Schoeftner: submitted to Journal of Sol-Gol Science and Technology (2010).

Google Scholar