KIEE International Transactions on Electrophysics and Applications

대한전기학회 (The Korean Institute of Electrical Engineers)
권호 표지

Effects of Packing Conditions on Apparent Resistivity Measurements of Polymer Powders

  • Park, K.S (Graduate School of Science and Engineering, Ibaraki University) ;
  • S. Kawai (Graduate School of Science and Engineering, Ibaraki University) ;
  • Kim, T.Y. (School of Safety Science, New South Wales University) ;
  • M. Yamaguma (National Institute of Industrial Safety) ;
  • T. Kodama (National Institute of Industrial Safety) ;
  • J.H Joung (Department of Safety Engineering, Seoul National University of Technology) ;
  • M. Masui (Department of Electrical and Electronic Engineering, Ibaraki University) ;
  • M. Takeuchi (Department of Electrical and Electronic Engineering, Ibaraki University)
  • 발행 : 2002.08.01
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초록

The apparent volume resistivity of powders measured by both the tapping and the compressing methods was compared in this study. Factors such as applied voltage, pressure, corona charging, and so on affecting the apparent volume resistivity of polymer powders were also examined experimentally. Powders of polyacrylonitrile and Nylon 11 were mainly used. The values of the apparent resistivity of polymer powders taken by the tapping method turned out to be larger than those taken by the compressing method, which indicates that the apparent volume resistivity of polymer powders depends strongly on the measurement method. The apparent resistivity of polymer powders increased with an increase in applied voltage while it decreased with an increase in pressure, tapping time, and particle size. The influence of the moisture content of powder and corona charging on the resistivity of polymer powders is also discussed.

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참고문헌

  1. K.S.Choi, M.Yamaguma, T.Kodama, J.H.Joung, D.S.Shin, N.Iwai, T.Kashiwazaki and M.Takeuchi, 'An experimental study on tribocharging of fine powders in powder coating spray gun', KIEE International Transactions on Electro-Physical and Application, vol. 11C, no.2, pp.l-5, June, 2001
  2. T. Hope, N. Jaeger and J. Terry, 'Safe handling of combustible powders during transportation, charging, discharging and storage', J. Loss prev. Process Ind. vol.13.pp.253-263, 1996
  3. The Research Institute of Industrial Safety Japan, Recommended practice for protection against hazards arising out of static electricity in general industries, RIIS-TR-87-1, 1988, p.6
  4. Institute of Institute of Electrostatics of Japan, Handbook of static electricity, 1998, pp.284 and 1233
  5. IEC, International standard 1241-2-3, 1994
  6. K. S. Choi, M. Yamaguma, T. Kodama, J. H. Joung, J. Cross, C. S. Choi, T. Y. Kim and M. Takeuchi, 'Ignitability of powder paints in electrostatic powder coating system', Asia Pacific Sym. on Safety Proc., vol.1, pp.297-300, November 2001