Textile Science and Engineering (한국섬유공학회지)

The Korean Fiber Society (한국섬유공학회)
권호 표지

Physical Properties of Carbon Black Filled Bicomponent Nylon Fibers

카본 블랙 첨가 나일론 이성분 복합섬유의 물리적 성질

  • 황영남 ((주)코오롱 기술연구소) ;
  • 김상용 (서울대학교 섬유고분자공학과, 성균관대학교 섬유공학과) ;
  • 전붕수
  • Published : 1994.12.01

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Abstract

Bicomponent fibers in the type of sheath-core and side-by-side from nylon 6 and carbon black(CB) filled nylon 6 have been spun in order to investigate their electrical conduction mechanisms and mechanical properties. As the concentration of CB increases, the system shoves a sharp decrease of electrical resistivity at the critical CB concentration at room temperature. At the critical concentration, the resistivity also increases significantly as the draw ratio increases. The conductivity of side-by-side fibers has been found to be higher than that of sheath-core fibers. From the temperature dependence of conductivity of the bicomponent fibers, it may be concluded that the resistivity of the bicomponenl fibers is influenced mostly by thermal shrinkage and thermal expansion. The tenacity anal elongation at break of the bicomponent fibers decreases wish the increase of CB concentration but the tensile modulus is not dependent on the CB concentration. The tenacity and elongation at break of sheath-core fibers are greater than those of side-by-side fibers.

Keywords

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