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Development of Nano Carbon Tile for Far-Infrared Thermotherapy Effect

원적외선 온열효과를 위한 나노탄소타일 개발

  • Yoon, Dal-Hwan (Dept. of Electronics Engineering, SeMyung University) ;
  • Uhm, Woo-Yong (Department of Engineer Education, Hong-Ik University)
  • Received : 2017.03.14
  • Accepted : 2017.03.29
  • Published : 2017.03.31

Abstract

In this paper, we have developed the nano carbon tile and chip which is based on a reducing process of oxidation and the viscous fluid control, after hardening to the stylene monomer and methylol acrylamide monomer using an acrylic emulsion junction material. Then we can obtain the sphere form structure of diagonal 1~3 mm, they have mixture the acrylic emulsion junction material(45%) and the coconut carbon powder(55%) of size 300~500 mesh for 25~30 min. Finally, if we have dry for the formated carbon including 30~90 minute at $90{\sim}300^{\circ}C$, then be obtained for pure carbon formation of 95%. In order to identify the safety of the friendly circumstance carbon formation, we have tested the far-infrared ratio, energy analysis, gas density and anti-disease germs experiment.

본 연구에서는 수용성 아크릴 에멀젼 접착제를 주성분으로 스틸렌 모노머(stylene monomer)와 메틸올 아크릴아미드 모노머(methylol acrylamide monomer)를 경화시키고, 여기에 산화환원제와 점도 조절을 통한 나노 탄소타일을 개발한다. 이때 수용성 아크릴 에멀젼 접착제(45 %)와 300~500메시(mesh) 코코넛 숯(55%) 파우더를 일정비율로 25~30분간 혼합 교반하면, 직경 1~3mm 구형체가 형성된다. 성형된 조성물은 소성온도 $90{\sim}300^{\circ}C$에서 30~90분가량의 소성과정을 거친 후 상온에서 건조시키면, 숯 성형물은 95% 이상 순수한 고형활성탄이 된다. 친환경 숯 성형물을 입증하기 위해 원적외선 비율, 에너지 분석, 가스농도 및 항균실험을 실시해 안정성을 확보한다.

Keywords

References

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