Journal of Welding and Joining

The Korean Welding and Joining Society (대한용접접합학회)
권호 표지

Analysis of Microsegregation in Fe-Cr-Ni Weld Metal

Fe-Cr-Ni강 용접금속부의 미세편석에 관한 해석

  • 박준민 (한양대학교 금속공학과) ;
  • 박종민 (한양대학교 금속공학과) ;
  • 안상곤 (포항제철 기술연구소 스테인리스 연구팀) ;
  • 이창희 (한양대학교 금속공학과) ;
  • 윤의박 (한양대학교 금속공학과)
  • Published : 1998.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

During solidification or welding of alloys, the solute redistribution brings out microsegregation. The microsegregation causes the formation of non-equilibrium second phases, shrinkage and porosity degrading mechanical/chemical properties Therefore, it has been required to predict microsegregation quantitatively. To predict the degree of microsegregation, more exact and appropriate computer simulation technique has been actively used during last two decades. To predict the degree of microsegregation in weld metal, an advanced two dimensional model was suggested. In the new model, both primary and secondary arm regions were defined for the analysis region. The growth in the primary arm regina was assumed to be a planar for effective calculation. Especially, for the growth of a secondary arm, a simple and effective mathematical function was established to show the growing pattern, the solute diffusion in the solid phase was calculated by finite difference method (FDM). The solid-liquid interface movement was considered to be in local equilibrium state. The experiments for welding of 310S stainless steel were carried out in order to examined the reasonability and feasibility of this model. The concentration profiles of the solute predicted by this model were compared with those obtained from experimental works.

Keywords

References

  1. Metal. Trans. v.A no.17 The effect of solidification rate on microsegregation J. A. Sarreal;G. J. Abbaschian
  2. Metall. Trans. v.A no.12 Solute Redistribution During Solidification with Rapid Solid State Diffusion T. W. Clyne;W. Kurz
  3. J. Cryst. Growth v.49 Microsegregation in cellular and cellular dendritic growth M. Solari;H. Biloni
  4. Metall. Trans. v.A no.12 Dendritee coarsening and microsegregation in Al-Cu alloys M. Basaran
  5. Materials Science and Technology v.1 Numerical analysis of solid and liquid diffusion in microsegregation of binary alloys A. Roosz;E. Halder;H. E. Exner
  6. Materials Science and Technology v.2 Numerical calculation of microsegregation in coarsened dendritic microstructures A. Roosz;E. Halder;H. E. Exner
  7. Applied Sci. Res. v.44 A model for the numerical computation of microsegregation in alloys A. J. W. Ogilvy;D. H. Kirkwood
  8. Microstructural Design by Solidification Processing A model for microsegregation in multicomponent systems solidifying with equiaxed morphology L. Nastac;S. Chang;D. M. Stefanescu;L. Hadji
  9. Metall. Trans. v.A no.21 Modeling of Micro-Macrosegregation in Solidification Processes M. Rappaz;V. R. Voller
  10. Micro-Segregation in Peritectic Alloys, Modeling of Solidification Process-V A. A. Howe
  11. Trans. ISIJ v.24 Mathematical Analysis of Segregations in Continuouslycast Slabs T. Matsumiya;H. Kajioka;S. Mizoguchi;Y. Ueshima;H. Esaka
  12. Trans. ISIJ v.26 Mathematical Analysis of Solute Redistribution during Solidification with Diffusion in Solid Phase I. Ohnaka
  13. Trans. JWRI v.18-1 Weld Cracking in Duplex Stainless Steel (Report Ⅱ) F. Masuda;H. Nakagawa;J. B. Lee
  14. 대한 금속학회지 v.34 no.7 성장패턴을 이용한 미시편석의 수치해석 박진우;김정호;안상곤;이창희;윤의박
  15. Journal of Crystal Growth v.173 Numerical modeling of microsegregation in binary alloys J.H. Kim;J. W. Park;C. H. Lee;E. P. Yoon
  16. 대한금속학회지 v.36 no.5 Al-Cu 합금 용접 금속부의 미세편석에 관한 해석 박준민;윤의박;이창희
  17. Ph. D. Thesis, Osaka Univ. 二相ステンレス鋼の溶接凝固割れ感受性とその改善に關する基礎的硏究 J. B. Lee
  18. Material Forum v.16 Computer simulation of microsegregation and precipitation in steel casting P. J. Bunyan;S. Dellar;N. Blake
  19. Met. Trans. v.3 The Solidification sequence in an 18-8 stainless steel, investigated by directional solidification H. Fredriksson