C- 및 Fe-(Beewax.Polyethylene) 정특성 감온소자

C-and Fe-(Beewax.Polyethylene) PTC Thermistors

beewax와 polyethylene을 혼합한 모체에 탄색 및 연분말을 징량첨가시켜서 정특성감온소자를 제조하였다. C.(beewax·Polyethylene)시편은 온도범위 20°∼90℃에서 104-1010Ωcm의 PTC특성을 나타내었으며 제조과정상에 분말혼합 및 가압냉각방법를 도입함으로써 그 재현성과 안정성을 현저히 개선시킬 수 있었다. 또한 Fe-(betwax· polyethylene)시편은 같은 온도범위에서 102-1010Ωcm의 PTC특성을 나타내었으며 저저항범위에서 PTC효과를 얻을 수 있었다. The carbon (the iron) -beewax·polyethylene thermistors have been prepared by heating the well ground mixture of carbon (iron), beewax and polyethylene at 160℃ for one hour and by cooling it under pressure of 12kgw/cm2. The resistivity for the former (the latter) increased from 102Ω·cm (104Ω·cw) to 1010Ω·cm(1010Ω·cm) as temperature changed from 20℃ to 90℃. The resistivity, 102Ω·cm at room temperature for the former, was lower by order Q( two than that for the papostor made by the earlier reporter. The reproducibility, which has been an important Problem for this type of thermistors to be industrialized, was improved by introducing pressure in cooling procedure for both carbon and iron thermistors.

The carbon (the iron) -beewax.polyethylene thermistors have been prepared by heating the well ground mixture of carbon (iron), beewax and polyethylene at 16$0^{\circ}C$ for one hour and by cooling it under pressure of 12kgw/cm2. The resistivity for the former (the latter) increased from 102$\Omega$.cm (104$\Omega$.cw) to 1010$\Omega$.cm(1010$\Omega$.cm) as temperature changed from 2$0^{\circ}C$ to 9$0^{\circ}C$. The resistivity, 102$\Omega$.cm at room temperature for the former, was lower by order Q( two than that for the papostor made by the earlier reporter. The reproducibility, which has been an important Problem for this type of thermistors to be industrialized, was improved by introducing pressure in cooling procedure for both carbon and iron thermistors.