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성형안정성을 고려한 바이오칩용 측벽 이동형 금형설계 및 제작
고영배,김종선,민인기,유재원,김종덕,윤경환,이성호,김경민,김병일,황철진,Go, Young-Bae,Kim, Jong-Sun,Min, In-Gi,Yu, Jae-Won,Kim, Jong-Duck,Yoon, Kyung-Hwan,Lee, Sung-Ho,Kim, Kyung-Min,Kim, Byung-Il,Hwang, Chul-Jin 한국금형공학회 2008 한국금형공학회지 Vol.2 No.2
Micro fabrication of biochip such like lab-on-a-chip becomes increasingly important. In this study, we designed and manufactured of new molds which were main factors for forming process in order to mass produce of biochip using forming process. Forming analysis of biochip was performed by Moldflow software. Results of this study are able to design and manufacture the mold which can be easy to eject the workpiece by using the slide mechanism for biochip.
미세채널 전사성 향상을 위한 사출성형 공정최적화 기초연구
고영배,김종선,유재원,민인기,김종덕,윤경환,황철진,Go, Young-Bae,Kim, Jong-Sun,Yu, Jae-Won,Min, In-Gi,Kim, Jong-Duck,Yoon, Kyung-Hwan,Hwang, Cheul-Jin 한국금형공학회 2008 한국금형공학회지 Vol.2 No.1
Micro channel is to fabricate desired pattern on the polymer substrate by pressing the patterned mold against the substrate which is heated above the glass transition temperature, and it is a high throughput fabrication method for bio chip, optical microstructure, etc. due to the simultaneous large area patterning. However, the bad pattern fidelity in large area patterning is one of the obstacles to applying the hot embossing technology for mass production. In the present study, stamper of cross channel with width $100{\mu}m$ and height $50{\mu}m$ was manufactured using UV-LiGA process. Micro channel was manufactured using stamper manufactured in this study. Also replicability appliance was evaluated for micro channel and factors affected replicability were investigated using Taguchi method.