Journal of Phase Equilibria

, Volume 24, Issue 3, pp 209–211 | Cite as

Revised thermodynamic description for the Co-Mo system

  • A. V. Davydov
  • U. R. Kattner
Short Communication


International Atomic Energy Agency Thermodynamic Description Balt Dupin Reference 1913Ray 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

Cited References

  1. 1913Ray:.
    U. Raydt and G. Tammann: “Über Mo-Co-Legierungen,” Z. Anorg. Chem., 1913, 83, pp. 246–52.CrossRefGoogle Scholar
  2. 1928Tak:.
    T. Takei: “The Diagram of the Cobalt-Molybdeum System,” Kinzoku-No-Kenkyu, 1928, 5, pp. 364–84.Google Scholar
  3. 1932Kos:.
    W. Koster and W. Tonn: “Die Zweistoffsysteme Kobalt-Wolfram und Kobalt-Molybdän,” Z. Metallkde., 1932, 24, pp. 296–99.Google Scholar
  4. 1935Syk:.
    W.P. Sykes and H.F. Graf: “The Cobalt-Molybdenum System,” Trans. ASM, 1935, 23, pp. 249–85.Google Scholar
  5. 1953Met:.
    A. Metcalfe: “Thermal and Dilatometric Investigation of the Alloys of Cobalt With Chromium and Molybdenum,” Trans. AIME, 1953, 197, pp. 357–64.Google Scholar
  6. 1963Qui:.
    T.J. Quinn and W. Hume-Rothery: “The Equilibrium Diagram of the System Molybdenum-Cobalt,” J. Less-Common Met., 1963, 5, pp. 314–24.CrossRefGoogle Scholar
  7. 1970Kra:.
    W. Krajewski, J. Kruger, and H. Winterhager: “Allotropic Transformation and Thermal Expansion of Cobalt Binary Alloys Between 100 and 800 °C,” Cobalt, 1970, 48, pp. 120–28.Google Scholar
  8. 1974Hei:.
    C.P. Heijwegen and G.D. Rieck: “Determination of the Phase Diagram of the MoCo System Using Diffusion Couples,” J. Less-Common Met., 1974, 34, pp. 309–14.CrossRefGoogle Scholar
  9. 1975Gus:.
    W. Gust, B. Predel, and S.N. Mehra: “Die Kinetik der Feinlamellaren Diskontinuierlichen Ausscheidung in Co-Mo-Mischkristallen,” Mater. Sci. Eng., 1975, 21, pp. 131–38.CrossRefGoogle Scholar
  10. 1975Kat:.
    I. Katayama, M. Aoki, and Z. Kozuka: “Thermodynamic Study of Solid Co-Mo Alloys by E.M.F. Measurements Using the Solid Electrolyte,” Nippn Kinzoku Gak-kai-Shi, 1975, 39, pp. 1210–14.Google Scholar
  11. 1980Bre:.
    L. Brewer, R.H. Lamoreaux, R. Ferro, R. Marazza, and K. Girgis: Molybdenum: Physico-Chemical Properties of Its Compounds and Alloys. Atomic Energy Review, International Atomic Energy Agency, Vienna, 1980, Special Issue No. 7, pp. 123–27, 231–34.Google Scholar
  12. 1981Tak:.
    T. Takayama, M.Y. Wey, and T. Nishizawa: “Effect of Magnetic Transition on the Solubility of Alloying Elements in BCC Iron and FCC Conbalt,” Trans. J. Inst. Met., 1981, 22, pp. 315–25.Google Scholar
  13. 1999Dav:.
    A.V. Davydov and U.R. Kattner: “Thermodynamic Assessment of the Co-Mo System,” J. Phase Equilibria, 1999, 20, pp. 5–16.CrossRefGoogle Scholar
  14. 2001Che:.
    S.L. Chen, S. Daniel, F. Zhang, Y.A. Chang, W.A. Oates, and R. Schmid-Fetzer: “On the Calculation of Multicomponent Stable Phase Diagrams,” J. Phase Equilibria, 2001, 22, pp. 373–78.CrossRefGoogle Scholar

Copyright information

© ASM International 2003

Authors and Affiliations

  • A. V. Davydov
    • 1
  • U. R. Kattner
    • 1
  1. 1.Metallurgy DivisionNational Institute of Standards and TechnologyGaithersburg

Personalised recommendations