36 result(s) using Focused Search for substance: consolidated ni3sn
If you didn't find what you were looking for, see more results.
Properties:
isothermal section
36 result(s) using Focused Search for substance: consolidated ni3sn
If you didn't find what you were looking for, see more results.
  1. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 550 °C (823 K); Partial composition: Cu-Ni-Ni60Sn40-Cu60Sn40, 0-40 wt.% Sn; Investigation: experimental; detailed
  2. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 400 °C (673 K); Full composition: Cu-Ni-Sn; Investigation: calculated; detailed
  3. Inorganic Solid Phases

    Au-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 600 °C (873 K); Full composition: Au-Ni-Sn; Investigation: calculated; detailed
  4. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 550 °C (823 K); Partial composition: Ni-Ni75Sn25-Cu45Ni30Sn25-Cu; Investigation: experimental; detailed
  5. Inorganic Solid Phases

    Fe-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 800 °C (1073 K); Full composition: Fe-Ni-Sn; Investigation: experimental; detailed
  6. Inorganic Solid Phases

    Mo-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 25 °C (298 K); Full composition: Mo-Ni-Sn; Investigation: experimental; detailed
  7. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 25 °C (298 K); Full composition: Cu-Ni-Sn; Investigation: calculated; detailed
  8. Inorganic Solid Phases

    Bi-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 630 °C (903 K); Full composition: Bi-Ni-Sn; Investigation: experimental; detailed
  9. Inorganic Solid Phases

    Au-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 500 °C (773 K); Full composition: Au-Ni-Sn; Investigation: calculated; detailed
  10. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 647 °C (920 K); Partial composition: Cu-Ni-Ni50Sn50-Cu30Ni20Sn50-Cu40Ni30Sn30-Cu70Sn30; Investigation: experimental; detailed
  11. Inorganic Solid Phases

    B-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 800 °C (1073 K); Partial composition: Ni2B-Ni-Ni3Sn2, 57/66.7-100 at.% Ni; Investigation: experimental; detailed
  12. Inorganic Solid Phases

    Fe-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 800 °C (1073 K); Full composition: Fe-Ni-Sn; Investigation: experimental; detailed
  13. Inorganic Solid Phases

    Ag-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 240 °C (513 K); Full composition: Ag-Ni-Sn; Investigation: experimental; detailed
  14. Inorganic Solid Phases

    Ag-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 240 °C (513 K); Full composition: Ag-Ni-Sn; Investigation: calculated; detailed
  15. Inorganic Solid Phases

    Au-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 400 °C (673 K); Full composition: Au-Ni-Sn; Investigation: experimental; detailed
  16. Inorganic Solid Phases

    Ni-Se-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 540 °C (813 K); Partial composition: Ni-NiSe-SnSe-Ni3Sn2; Investigation: experimental; detailed
  17. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 240 °C (513 K); Full composition: Cu-Ni-Sn; Investigation: experimental; detailed
  18. Inorganic Solid Phases

    Cu-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 240 °C (513 K); Full composition: Cu-Ni-Sn; Investigation: experimental; detailed
  19. Inorganic Solid Phases

    Ni-Sn-Zn Isothermal Section of Ternary Phase Diagram

    • Temperature: 600 °C (873 K); Full composition: Ni-Sn-Zn; Investigation: experimental; detailed
  20. Inorganic Solid Phases

    Au-Ni-Sn Isothermal Section of Ternary Phase Diagram

    • Temperature: 400 °C (673 K); Full composition: Au-Ni-Sn; Investigation: calculated; detailed
Page is not a valid page number. Please enter a number between 1 and 2 of 2