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- In relation to this article, we declare that there is no conflict of interest.
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Received December 18, 2009
Accepted March 24, 2010
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스크린 인쇄 공정에서 고체면의 젖음성이 인쇄형상에 미치는 영향
The Effect of the Wettability of Solid Surface on Printing Pattern in Screen Printing
고려대학교 화공생명공학과, 136-713 서울시 성북구 안암동
Department of Chemical and Biological Engineering, Korea University, Anam-dong, Seongbuk-gu, Seoul 136-713, Korea
Korean Chemical Engineering Research, June 2010, 48(3), 397-400(4), NONE Epub 5 July 2010
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Abstract
스크린 프린팅에서의 계면유체역학적인 문제를 알루미나 나노입자를 물에 분산시킨 점성과 탄성을 갖는 모델잉크를 대상으로 실험적으로 연구하였다. 형상이 다른 스크린 패턴을 통과한 잉크를 젖음성이 다른 고체면에 인쇄될 때 인쇄형상에 대하여 연구한 결과 고체면에의 인쇄 형상은 단순히 스크린 패턴이나 평형상태의 접촉각에 의하여만 결정되지 않음을 알 수 있었다. 또한 오목한 모서리와 볼록한 모서리의 차이는 점도에 따라 달라짐을 볼 수 있었다. 특히 잉크의 탄성이 테두리의 형태에 영향을 미치는 것을 알 수 있었다.
The interfacial hydrodynamic issues in the screen printing are experimentally investigated by using model inks that are prepared by dispersing alumina nanoparticles in water. The printing patterns of the inks that are passed through differing geometrical shapes of screen on solid surfaces with differing wettability are not solely determined by the pattern on the screen. The dynamic contact angle cannot solely explain the physics of the problem, either. The difference_x000D_
between the screen and printing patterns was not the same for concave and convex corners. Especially the elasticity of ink affects the edge shape.
References
Mallik S, Schmidt M, Bauer R, Ekere NN, Influence of Solder Paste Components on Rheological Behaviour, 2nd Electronics Systemintegration Technology Confererce Greenwich, UK, 1135-1140 (2008)
Pan J, Tonkay GL, Quintero A, J. Electron. Manuf., 9, 203 (1999)
Lin HW, Chang CP, Hwa WH, Ger MD, J. Mater. Process. Technol., 197, 284 (2008)
Riemer DE, Analytical Engineering Model of the Screen printing Process: Part 1, Solid State Technol., 107-111 (1988)
Riemer DE, Analytical Engineering Model of the Screen printing Process: Part 2, Solid State Technology., 85-90 (1988)
Owczarek JA, HowLand FL, IEEE Transaction on components, hybrids, and manufacturing technology., 6, 358 (1990)
Owczarek JA, HowLand FL, IEEE Transaction on components, hybrids, and manufacturing technology., 6, 368 (1990)
Claypole TC, Gethin DT, Danias J, Dot gain and ink Transfer behavior in the Screen printing Process, Surface Coatings International., 222-229 (1997)
Ulman A, An introduction to ultrathin organic film from langmuir-blodgett to self-assembly, Academic Press, New York, 237-304 (1991)
Yasseri AA, Sharma S, Kamins TI, Appl. Phys. Lett., 89, 153121 (2006)
Xue CY, Yang KL, Langmuir, 23(10), 5831 (2007)
Pan J, Tonkay GL, Quintero A, J. Electron. Manuf., 9, 203 (1999)
Lin HW, Chang CP, Hwa WH, Ger MD, J. Mater. Process. Technol., 197, 284 (2008)
Riemer DE, Analytical Engineering Model of the Screen printing Process: Part 1, Solid State Technol., 107-111 (1988)
Riemer DE, Analytical Engineering Model of the Screen printing Process: Part 2, Solid State Technology., 85-90 (1988)
Owczarek JA, HowLand FL, IEEE Transaction on components, hybrids, and manufacturing technology., 6, 358 (1990)
Owczarek JA, HowLand FL, IEEE Transaction on components, hybrids, and manufacturing technology., 6, 368 (1990)
Claypole TC, Gethin DT, Danias J, Dot gain and ink Transfer behavior in the Screen printing Process, Surface Coatings International., 222-229 (1997)
Ulman A, An introduction to ultrathin organic film from langmuir-blodgett to self-assembly, Academic Press, New York, 237-304 (1991)
Yasseri AA, Sharma S, Kamins TI, Appl. Phys. Lett., 89, 153121 (2006)
Xue CY, Yang KL, Langmuir, 23(10), 5831 (2007)
