Development of Electrical Steel by Laser Magnetic Domain Refinement for Applying to Transformers of High Energy Efficiency

고효율 변압기용 레이저자구 전기강판 개발

  • Kwon, Oh-Yeoul (Electrical Steel Research Group, Technical Laboratory, POSCO) ;
  • Cha, Sang-Yun (Electrical Steel Research Group, Technical Laboratory, POSCO) ;
  • Ha, Kyung-Ho (Electrical Steel Research Group, Technical Laboratory, POSCO) ;
  • Kim, Ji-Hyun (Electrical Steel Research Group, Technical Laboratory, POSCO) ;
  • Kim, Jae-Kwan (Electrical Steel Research Group, Technical Laboratory, POSCO)
  • 권오열 (포스코 기술연구소 전기강판연그룹) ;
  • 차상윤 (포스코 기술연구소 전기강판연그룹) ;
  • 김지현 (포스코 기술연구소 전기강판연그룹) ;
  • 하경호 (포스코 기술연구소 전기강판연그룹) ;
  • 김재관 (포스코 기술연구소 전기강판연그룹)
  • Published : 2008.07.16

Abstract

The magnetic domain-refining techniques such as ball scratching, laser irradiation and plasma have been developed to reduce the domain wall spacing and thus iron losses in Fe-3%Si grain-oriented silicon steels. In view point of magnetic properties, it was supposed that the locally residual stresses change the magnetoelastic energy of the material and thus the spacing between $180^{\circ}$ domain walls decreases in order to reduce the magnetostatic energy. The effect of laser irradiation on iron loss and magnetostriction reduction for Fe-3%Si grain-oriented steel were investigated. Since the local tensile stresses were induced at the surface of Fe-3%Si steel by the laser irradiation, the minimum iron loss caused by reducing eddy current loss was obtained in spiete of the decrease of permeability by hindering eddy current loss was obtained in spite of the decrease of permeability by hindering the domain wall movement around the induced stress field. Furthermore, the laser treated 3%Si steel has lower magnetostriction as compared to non laser-treated steel and is less sensitive to applying pre-stresses due to the volume reduction of $90^{\circ}$ domain in materials.

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