Bulletin of Alloy Phase Diagrams

, Volume 8, Issue 6, pp 550–553 | Cite as

The Na−Zn (Sodium-Zinc) system

  • A. D. Pelton


Equi Diagram Alloy Phase Diagram Crys Structure Aluminosilicate Glass Partial Enthalpy 
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Cited References

  1. Indicates key paper.06Mat: C.H. Mathewson, “Na−Al, Na−Mg and Na−Zn Alloys,”Z. Anorg. Chem., 48, 195–200 (1906) in German. (Equi Diagram; Experimental; Indicates presence of a phase diagram)Google Scholar
  2. 20Kre: R. Kremann and P.V. Reininghaus, “The Electromotive Behavior of Some Binary Metal Alloys,”Z. Metallkd., 12, 282–285 (1920) in German. (Equi Diagram; Experimental)Google Scholar
  3. 25Kra: C.A. Kraus and H.F. Kurtz, “The Reduction of Metals from Their Salts by Means of Other Metals in Liquid Ammonia Solution,”J. Am. Chem. Soc., 47, 43–60 (1925). (Equi Diagram; Experimental)CrossRefGoogle Scholar
  4. 29Bur: W.M. Burgess and A. Rose, “A Study of the Products Obtained by the Reducing Action of Metals upon Salts in Liquid Ammonia Solution. I. Introduction: II. The Action of Sodium upon Zinc Cyanide,”J. Am. Chem. Soc., 51, 2127–2131 (1929). (Equi Diagram; Experimental)CrossRefGoogle Scholar
  5. 31Zin: E. Zintl, J. Goubeau, and W. Dullenkopf, “Salt-Like Compounds and Intermetallic Phases of Sodium in Molten Ammonia,”Z. Phys. Chem., 154, 1–46 (1931) in German. (Equi Diagram; Experimental)Google Scholar
  6. 37Ket: J.A.A. Ketelaar, “The Crystal Structure of Alloys of Zn with the Alkali and Alkaline Earth Metals and of Cd with K,”J. Chem. Phys., 5, 668 (1937). (Cry Structure; Experimental)ADSCrossRefGoogle Scholar
  7. 37Zin: E. Zintl and W. Haucke, “Constitution of the Metallic Phases NaZn13, KZn13, KCd13”,Naturwissenschaften, 25, 717 (1937) in German. (Crys Structure; Experimental)ADSCrossRefGoogle Scholar
  8. 38Zin: E. Zintl and W. Haucke, “Constitution of the Intermetallic Phases NaZn13, KZn13, KCd13, RbCd13 and CsCd13,”Z. Elektrochem., 44, 104–111 (1938) in German. (Crys Structure; Experimental)Google Scholar
  9. 52Sho: D.P. Shoemaker, R.E. Marsh, F.J. Ewing, and L. Pauling, “Interatomic Distances and Atomic Valences in NaZn13,”Acta Crystallogr., 5, 637–644 (1952). (Crys Structure; Experimental)CrossRefGoogle Scholar
  10. 60Hau: W. Hausler, “The Activity of Na in Molten Na−Zn Alloys at 600°,”Z. Metallkd., 51, 95–100 (1960) in German. (Thermo; Experimental)Google Scholar
  11. Indicates key paper.68Lam: G.J. Lamprecht and P. Crowther, “Solubility of Metals in Liquid Sodium: The Systems Na−Ag, Na−Zn and Na−Ce”,Trans. Metall. Soc. AIME, 242(10), 2169–2171 (1968). (Equi Diagram; Experimental)Google Scholar
  12. 80Pea: W.B. Pearson, “Dimensional Analysis of Phases Having the BaCd11, NaZn13 and BaHg11 Structures: Study of the Influence of Variable Atomic Parameters on Changes of Unit Cell Dimensions”,Z. Kristallogr., 152, 23–26 (1980). (Crys Structure; Theory)CrossRefGoogle Scholar
  13. Indicates key paper.82Mor: A.G. Morachevskii, E.A. Maiorova, and O.I. Vorob'eva, “Thermodynamic Properties of Dilute Sodium Solutions in Liquid Zinc”,Elektrokhim., 18(1), 148–150 (1982). (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram)Google Scholar
  14. 83Cha: M.W. Chase, “Heats of Transition of the Elements,”Bull. Alloy Phase Diagrams, 4(1), 124 (1983). (Equi Diagram, Thermo; Compilation)Google Scholar

Copyright information

© ASM International 1987

Authors and Affiliations

  • A. D. Pelton
    • 1
  1. 1.Centre de Recherche en Calcul Thermochimique, Ecole PolytechniqueCampus de l'Université de Montréal, P.O. Box 6079, Station AMontréalCanada

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