Journal of Korea Foundry Society (한국주조공학회지)

Korea Foundry Society (한국주조공학회)
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CaO Crucible Induction Melting and Investment Casting of TiAl Alloys

TiAl 합금의 CaO 도가니 유도용융 및 정밀주조

  • Kim, Myoung-Gyun (School of Metallurgical and Materials Engineering, Sungkyunkwan University) ;
  • Sung, Si-Young (School of Metallurgical and Materials Engineering, Sungkyunkwan University) ;
  • Kim, Young-Jig (School of Metallurgical and Materials Engineering, Sungkyunkwan University)
  • 김명균 (성균관대학교 금속재료공학부) ;
  • 성시영 (성균관대학교 금속재료공학부) ;
  • 김영직 (성균관대학교 금속재료공학부)
  • Published : 2002.04.20
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Abstract

The main objectives were to investigate the suitability of CaO crucible for melting TiAl alloys and to develop investment mold for investment casting of TiAl alloys. TiAl alloy specimen were prepared by plasma arc furnace under argon atmosphere. After melting of TiAl alloy using CaO crucible, the results showed that there is little contamination of oxygen in the TiAl bulk. Conventional vacuum induction furnaces can be readily adaptable to produce cast parts of TiAl without high skilled techniques. The determination of optical metallography and microhardness profiles in investment cast TiAl alloy rods has allowed the gradation of the relative thermal stability of the oxides examined. The molds used for the present study were $ZrO_2$, $Al_2O_3$, CaO stabilized $ZrO_2$ and $ZrSiO_4$. Even although high temperature of mold preheating, $Al_2O_3$ mold is a promising mold material for investment casting of TiAl alloys in terms of thermal stability, cost and handling strength. It is important to take thermal stability and preheating temperature of mold into consideration for investment casting of TiAl alloys.

Keywords

References

  1. JOM v.July Intermetallic alloys based on gamma titanium aluminide W. Y. Kim
  2. Acta Materialia v.48 no.1 Hightemperature structural intemetallics M. Yamaguchi;H. Inui;K. Ito https://doi.org/10.1016/S1359-6454(99)00301-8
  3. Mat. Trans. v.38 no.4 High temperature oxidation of TiAl/SiCp composites manufactured by MA-SPS process D. B. Lee;J. H. Park;Y. J. Kim
  4. JOM v.December The melting of titanium H. B. Bomberger;F. H. Fros
  5. Imono v.61 no.11 Service life of electrically fused lime crucoble for vacuum induction melting of reactive alloys T. Sato;Y. Yoneda;H. Iwanabe;Y. J. Kim;R. Sakagami
  6. J. Kor. Foundrymen's Soc. v.19 no.3 Melting and casting of titanium alloys S. K. Kim;T. W. Hong;s. H. Lee;Y. J. Kim
  7. Materia Japan v.25 no.10 Investment casting of TiAl S. Isobe
  8. J. Kor. Inst. Met & Mater. v.40 no.4 Effect of the refractory oxide for mold materials and binders on surface layer reactions of titanium castings M. G. Kim;T. K. Kim;T. W. Hong;S. K. Kim;Y. J. Kom
  9. Imono v.49 no.3 A simple method of making lime crucible for laboratory use T. Sato;T. Takahashi;N. Matsumoto
  10. Mat. Sci. Tech. v.16 no.9 Investigation into refractories as a crucible and mould materials for melting and casting TiAl alloys J. P. Kuang;R. A. harding;J. Campbell https://doi.org/10.1179/026708300101508964
  11. JOM v.September The high-quality precision casting of titanium alloys K. Suzuki
  12. Metall. Trans. v.22A Reaction of Ti and Ti-Al alloys woth alumina A. K. Misra
  13. J. Japan Institute Metals v.60 no.9 Effect of centrifugal force on mold filling and solidification in precision casting of Ti-6Al-4V alloy K. Suzuki;K. Nishikawa;H. Matui;S. Watakabe https://doi.org/10.2320/jinstmet1952.60.9_853
  14. Metall. Mater. Trans. v.28B The effect of silica-containing binders on the titanium/face coat reaction C. Frueh;D. R. Poirier;M. C. Maguire