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Stress Simulation on Suspended Porcelain Insulators with Cement Displacement

  • Han S. W. (Advanced Electric Material Group, KERI) ;
  • Cho H. G. (Advanced Electric Material Group, KERI) ;
  • Park G. H. (Advanced Electric Material Group, KERI) ;
  • Lee D. I. (Transmission Group, KEPRI) ;
  • Choi I. H (Transmission Group, KEPRI) ;
  • Kim T. Y. (Transmission Construction Team, KEPCO)
  • Published : 2003.06.01

Abstract

The experimental and simulation study of insulator failure by cement growth on suspended insulators (16,500kgf) for transmission line was discussed. To get more practical and analytic calculation results, the advanced program was used. This analysis tool was possible to calculate stress behaviors with mechanical loading when cement displacement happened. From simulation results, the. cement displacement changed with linear according to temperature. The shear stress was about $7 kgf/mm^2$ at $0.07\%$ displacement provided from $200^{\circ}C$, then it could be seen that the cement would be fractured even if $0.07\%$ displacement acted, because the cement had about $7-9 kgf/mm^2$ flexure strength. The curve patterns of shear stress with the increase of mechanical loading were changed at $0.02\%$ as a turning point, when the cement displacement was over $0.02\%$ the shear stresses decreased reversely with the increase of mechanical loading. From analysis on porcelain body it was known that there were enough margin to protect the fracture of porcelain body before the cement

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References

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