a parametric investigation was conducted to evaluate the effect of the laser beam for plastic adhesion. To determine the best condition for plastic adhesion, the co₂ (wavelength 10.6㎛) and nd:yag (wavelength 1.06 ㎛) laser were experimented with....
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https://www.riss.kr/link?id=A76605477
2007
English
SCIE,SCOPUS,KCI등재
학술저널
112-117(6쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
a parametric investigation was conducted to evaluate the effect of the laser beam for plastic adhesion. To determine the best condition for plastic adhesion, the co₂ (wavelength 10.6㎛) and nd:yag (wavelength 1.06 ㎛) laser were experimented with....
a parametric investigation was conducted to evaluate the effect of the laser beam for plastic adhesion. To determine the best condition for plastic adhesion, the co₂ (wavelength 10.6㎛) and nd:yag (wavelength 1.06 ㎛) laser were experimented with. From the experiment results obtained, the nd:yag laser was revealed to be the most suitable for plastic adhesion.
In this study, three adhesion parameters such as input power level, working time of laser beam and pps (pulse per second) were systematically adjusted for suitable adhesion. From these experiments, it was observed that the target plastic melted and was evaporated by the nd:yag laser. Furthermore, the relationships between adhesive surface by laser beam and above three parameters were discovered.
목차 (Table of Contents)
A Dual-Servo Type VCM for a Nano-Level Measurement System
A Study on the Secondary Rectification-Methods for the Three-Level Converter