Journal of the Korean Society of Safety (한국안전학회지)

The Korean Society of Safety (한국안전학회)
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The Characteristics Analysis of Damaged Pattern by Repeated Stress of VCTFK

VCTFK의 반복피로에 의한 소손 패턴의 특성 해석

  • Choi Chung-Seog (Electrical Safety Research Institute attached to KESCO) ;
  • Shong Kil-Mok (Electrical Safety Research Institute attached to KESCO) ;
  • Kim Dong-Woo (Electrical Safety Research Institute attached to KESCO)
  • 최충석 (전기안전연구원(한국전기안전공사 부설)) ;
  • 송길목 (전기안전연구원(한국전기안전공사 부설)) ;
  • 김동우 (전기안전연구원(한국전기안전공사 부설))
  • Published : 2004.12.01
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Abstract

In this paper, we analyzed on the characteristics of the stranded wire disconnected by repeated stress. The stranded wires that were used in the experiment are PVC insulated flexible cords(VCTFK: Vinyl Insulated Vinyl Cabtyre Cord Flat-type) of $0.75mm^2,\;1.25mm^2,\;and\;2.0mm^2$. They are used to connect the load in low voltage. The stranded wires disconnected by repeated stress were magnified with optical microscope. Using X-ray, the disconnected wire were photo-graphed. we compared mechanical characteristics of the stranded wire between disconnected tendency and allowable current. On the mechanical strength of vinyl cap tire ellipse type cords under bending stress, VCTFK of $1.25mm^2$ was the strongest of them. When it was bent $826.3\pm7$ times, it appeared the disconnected tendency that element wires of VCTFK of $1.25mm^2$ are more about 1.67 times than element wires of VCTFK of $0.75mm^2$. In mechanical strength, VCTFK of $1.25mm^2$ is higher about 1.7 times than VCTFK of $0.75mm^2$. Therefore, we found out that mechanical strength was higher, when the wire had a lot of element wires. In comparison with bending stress, VCTFK of $1.25mm^2$ is the strongest among samples, and it is the most useful in wires of movable type.

Keywords

References

  1. 김영대, '전기재해통계분석', 한국전기안전공사, pp. 7-63, 2003
  2. 최충석 외 5, '전기화재공학', 동화기술, pp. 195-265, 2004
  3. 한국산업규격, KS C 3304, 산업자원부 기술표준원, 2000
  4. Norimich watanabe 외 2, '電源コ-ドの半斷新線箇所におる放電形態と發火危險性',日本火災學會硏究發表會, pp. 202~203, 1994
  5. 長田正義, '素線切れビニルコ一ドの着火電流と流入エネルギ一', 日本火災學會, Vol. 33 No. 1, pp. 1-7, 1983
  6. Babrauskas, V., 'Fires due to Electric Arcing: Can 'Cause' Beads Be Distinguished from 'Victim' Beads by Physical or Chemical Testing?', Fire and aterials. pp.189-201, 2003
  7. C. S. Choi et aI, 'The Scattering Patterns Analysis of Particles by Varying Short Circuit Angles between Electric Wires', Fire Science and Tech., Proceeding of the sixth Asia Oceania Symp., pp. 717-722, 2004
  8. 최충석 외 2, '열열화된 600V 2종 비닐절연전선의 특성변화 분석', 대한전기학회논문지, Vol. 49C, No. 1, pp. 8-12, 2000
  9. C. S. Choi et al, 'A Study on the Growing Properties of the Cu20 with Variation of Load Current', Journal of the KIIS, Vol. 16, No.5, pp. 46-49, 2001
  10. Maitland Jones, Jr., 'Organic Chemistry', Norton & Company, pp. 528-541, 2000
  11. P. Opaprakasit et aI, 'Intramolecular hydrogen Bonding and Calixarene like Structures in P Cresol/ Formaldehyde Resins', J. of Molecular Structure, pp. 25-35, 2001
  12. Sheera Knecht, 'Fusing Current of Short Aluminum Bond Wire', IEEE ISC on TP, pp. 329-332, 1996
  13. Atila Metrol Member, 'Estimation of Aluminum and Gold Bond Wire Fusing Current and Fusing Time', IEEE Trans. on CP & MT, Vol. 18, No.1, pp. 210-214, 1995