ZnO의 화학구동력에 의한 $MgAl_2O_4$의 입계이동

Chemically Induced Grain Boundary Migration of MgAl2O4 by ZnO

  • 최균 (한국과학기술원 무기재료공학과) ;
  • 조의성 (한국과학기술원 무기재료공학과) ;
  • 강석중 (한국과학기술원 무기재료공학과)
  • Choi, Kyoon (Department of Ceramic Science and Engierring, Korea Advanced Institute of Science and Technology) ;
  • Cho, Eu-Seong (Department of Ceramic Science and Engierring, Korea Advanced Institute of Science and Technology) ;
  • Kang, Suk-Joong (Department of Ceramic Science and Engierring, Korea Advanced Institute of Science and Technology)
  • 발행 : 1992.11.01

초록

The chemically induced grain-boundary migration has been studied in MgAl2O4 spinel under ZnO atmosphere. MgAl2O4 compacts been prepared by sintering powder mixture of Al2O3 and MgO at 1$600^{\circ}C$ for 60 h in air. The sintered MgAl2O4 has been heat-treated at 150$0^{\circ}C$ in a ZnO atmosphere. During the heat-treatment grain boundaries have become curved or faceted, and the total area of grain boundaries have increased. In the migrated region, the ZnO content is higher by 6 wt% than that in other regions, indicating that the migration was induced by addition of ZnO. In some shrinking grains, the faceted planes of different grain boundaries for the same grain are parallel to each other. This result provide an experimental support for the coherency strain energy in diffusion layer of the shrinking grain as being the major driving force. Calculated coherency strain energy of MgAl2O4 shows the maximum at {111} planes and the minimum at {100} planes. Although the minimum surface energy is at {111} planes, the faceted moving boundaries are expected to be {100} planes because of lowest driving force for the grain-boundary migration.

키워드

참고문헌

  1. Acta Metall. v.35 no.9 The Effect of Curvature on the Grain Boundary Migration Induced by Diffusional Coherency Strain in Mo-Ni Alloy Y.-J. Baik;D.N. Yoon
  2. Scr. Metall. v.17 no.3 Diffusion Induced Grain Boundary Migration and Recrystallization in the Cu-Ni System F.J.A. den Broeder;S. Nakahara
  3. Ceram Int. v.16 Chemically Induced Grain Boundary Migration in SrTiO₃ K.-J. Yoon;D.N. Yoon;S.-J.L. Kang
  4. Acta Metall. v.38 no.7 Chemically Induced Grain Boundary Migration and Recrystallization in Al₂O₃Acta Metall. H.Y. Lee;S.-J.L. Kang
  5. Int Mat Rev. v.32 no.4 Diffusion Induced Grain Boundary Migration A.H. King
  6. Scr Metall. v.17 no.2 On the Driving Force for Diffusion Induced Grain Boundary Migration M. Hillert
  7. The Oxide Handbook G.V. Samsonov(ed)
  8. J Am Ceram Soc v.72 no.2 Grain-Boundary Migration in Nonstoichiometric Solid Solutions of Magnesum Aluminate Spinel I.Grain Growth Studies Y.-M. Chang;W.D. Kingery
  9. Adavances in Ceramics v.10 Influence of MgO Vaporization on the Final Stage Sintering of MgO-Al₂O₃Spinel M. Matsui;T. Takahashi;I. Oda;W.D. Kingery(ed)
  10. Phase Transformations Spinodal Decomposition J.E. Hilliard
  11. Interpretation of Transmission Electron Micrographs no.Appendix 3 J.W. Edington
  12. J. Am. Ceram Soc. v.75 no.1 Shape of MgAl₂O₄Grains in a CaMgSiAlO Glass Matrix S.-Y.Park;K.Choi;S.-J.L.Kang;D.N.Yoon
  13. Chemically Induced Migration and Corrugation of and Recrystallization at Interfaces of Cubic ZrO₂System J.-W. Jeong
  14. Scr Metall. v.20 no.10 The Misorientation Dependence of Diffusion Induced Grain Boundary Migration F.-S. Chen;A.H. King
  15. Acta Metall. v.40 no.5 Diffusion Induced Grain Boundary Migration of Symmetric and Asymmetric<011>{011} Tilt Boundaries During the Diffusion of Zn into Cu R Schmelzle;B. Giakupian;T. Muschik;W. Gust;R.A. Fournelle
  16. Growth and Dissolution Processes On the Kinematic Theory of Crystal Growth and Dissolution Processes F.C. Frank;R.H. Doremus(ed);B.W. Roberts(ed);David Turnbull(ed)
  17. Z Phys. Chem. Neue Floge. Bd. v.77 no.S The Kinematic Theory of Crystal Growth and Dissolution Processes: II F.C. Frank