Skip to main content
SpringerLink
Log in

The Co−Cu (Cobalt-Copper) system

  • Provisional
  • Co−Cu
  • Published:
Bulletin of Alloy Phase Diagrams

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Cited References

  • Indicates key paper.37Has: U. Hashimoto, “The Equilibrium Diagram of the Co−Cu System”,J. Jpn. Inst. Met., 1, 19 (1937) in Japanese. (Equi Diagram, Meta Phases; Experimental; Indicates presence of a phase diagram.)

    Google Scholar 

  • 57Kna: A. Knappwost, “Die Bestimmung der Mindestgröße Spontan Magnetisierter Bereiche des Kobalts aus ihrem Paramagnetismus”,Z. Phys. Chem., 12, 30 (1957) in German. (Equi Diagram, Meta Phases Experimental)

    Google Scholar 

  • Indicates key paper.58Nak: Y. Nakagawa, “Liquid Immiscibility in Copper-Iron and Copper-Cobalt Systems in the Supercooled State”,Acta Metall., 6, 704 (1958). (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram.)

    Article  Google Scholar 

  • Indicates key paper.59Liv: J.DD. Livingston, “Critical Particle Size for Precipitation Hardening”,Trans. Met. Soc. AIME, 215, 566 (1959). (Equi Diagram, Meta Phases; Experimental; Indicates presence of a phase diagram.)

    Google Scholar 

  • 62Kne: E. Kneller, “Magnetic Moment of Co−Cu Solid Solution with 40 to 85% Cu”,J. Appl. Phys., 33, 1355 (1962). (Meta Phases, Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  • Indicates key paper.63Kle: W. Klement Jr., “Solid Solutions in Gold-Cobalt and Copper-Cobalt Alloys”,Trans. Met. Soc. AIME, 227, 965 (1963). (Equi Diagram, Meta Phases; Experimental; Indicates presence of a phase diagram.)

    Google Scholar 

  • Indicates key paper.65Dok: R. N. Dokken and J. F. Elliott, “Calorimetry at 1100°C to 1200°C: The Copper-Nickel, Copper-Silver, Copper-Cobalt Systems”,Trans. Met. Soc. AIME, 233, 1351 (1965). (Thermo; Experimental)

    Google Scholar 

  • 65Koz: L. Kozlowski and K. Krop, “The Influence of Temperature of and Annealing Time on Magnetic Properties of Diluted Alloys Co−Cu”, Paper from Polish Academy of Science-Metallurgy Report,1, 5–25 (1965). (Meta Phases; Experimental)

    Google Scholar 

  • Indicates key paper.66Old: C. F. Old and C. W. Haworth, “Solid-Solubility Limits in the Copper-Cobalt System”,J. Inst. Met., 94, 303 (1966). (Equi Diagram; Experimental; Indicates presence of a phase diagram.)

    Google Scholar 

  • 66Ser: I. S. Servi and D. Turnbull, “Thermodynamics and Kinetics of Precipitation in the Copper-Cobalt System”,Acta Metall., 14, 161 (1966). (Meta Phases Thermo; Experimental)

    Article  Google Scholar 

  • Indicates key paper.69Den: W. A. Dench and O. Kubaschewski, “EMF Measurements on Cobalt-Copper Alloys”,High Temp.-High Pressures, 1, 357 (1969). (Thermo; Experimental)

    Google Scholar 

  • 70Kan: A. Kant, B. Strauss, and S. H. Lin, “Mass-Spectrometric Determination of the Dissociation Energies of the Gaseous CuNi, CuCo and CuCr”,J. Chem. Phys., 52, 2384 (1970). (Thermo; Experimental)

    Article  ADS  Google Scholar 

  • Indicates key paper.70Kau: L. Kaufman and H. Bernstein,Computer Calculations of Phase Diagrams, Academic Press, NY (1970). (Equi Diagram, Thermo; Compilation)

    Google Scholar 

  • Indicates key paper.72Bru: F. J. Bruni and J. W. Christian, “Solubility Limits in the Copper-Cobalt System”,Mater. Sci. Eng., 9, 241 (1972). (Equi Diagram; Experimental; Indicates presence of a phase diagram.)

    Article  Google Scholar 

  • Indicates key paper.72Hay: E. J. Hayes, A. Harn, and E. P. Wohlfarth, “Linear Low-Temperature Specific Heat of Dilute Alloys Arising from Super-paramagnetic Clusters”,J. Phys. F, 2, 351 (1972). (Thermo; Experimental)

    Article  ADS  Google Scholar 

  • 73Has: U. Hashimoto, “Influence of Added Elements on Allotropic Transformations”,Trans. Nat. Res. Inst. Met., Suppl., 15, 1 (1973) in French. (Meta Phases; Review)

    MathSciNet  Google Scholar 

  • 73Mat: J. C. Matthews, J. R. Moon, and S. J. Wozniak, “Low-Temperature Heat Capacity of a Sample of Copper-Cobalt in a Magnetic Field”,J. Phys. F, 3, 1193 (1973). (Thermo; Experimental)

    Article  ADS  Google Scholar 

  • 73Ohn: R. Ohno, M. Kagawa, and T. Hasumi, “Rates of Dissolution of Rotating Cobalt Cylinders in Liquid Copper and Copper-Cobalt Alloys”,Trans. Jpn. Inst. Met., 14, 140 (1973). (Equi Diagram; Experimental)

    Google Scholar 

  • 74Kur: K. A. Kuroedov, E. I. Mikheeva, and A. M. Pavlova, “Magnetic Properties and Structure of Multilayer Magnetic Solid Cobalt-Copper Films”,Magnitn. Plenki, 310 (1974) in Russian. (Meta Phases, Crys Structure; Experimental)

  • 74Mat: J. C. Matthews, J. R. Moon, and S. J. Wozniak, “Low-Temperature Magneto-heat Capacity of 99% Copper-1% Cobalt”,J. Phys. F, 4, 2067 (1974). (Thermo; Experimental)

    Article  ADS  Google Scholar 

  • 76Nik: B. I. Nikolin, “126-Layer Martensitic Alpha Phase (126R) in Cobalt-Copper Alloys”,Dokl. Akad. Nauk SSSR, 229, 837 (1976) in Russian. (Meta Phases, Crys Structure; Experimental)

    Google Scholar 

  • 77Gan: Y. L. Gancheva, P. M. Vyacheslavov, and G. K. Burkat, “Structure and Physicochemical Properties of a Cobalt-Copper Electrolytic Alloy”,Electrokhimiya, 13, 554 (1977) in Russian. (Crys Structure; Experimental)

    Google Scholar 

  • Indicates key paper.77Igu: Y. Iguchi, Y. Tozaki, S. Ban-ya, and T. Fuwa, “A Calorimetric Study of Heats of Mixing of Nickel or Cobalt Alloys”,J. Iron Steel Inst. Jpn., 63, 953 (1977). (Thermo; Experimental)

    Google Scholar 

  • Indicates key paper.77Nik: B. I. Nikolin, “Formation of a Multilayer Alpha-Prime Phase (126R) During the Martensitic Transformation in Co−Cu Alloys”,Fiz. Met. Metalloved., 43, 591 (1977) in Russian; TR:Phys. Met. Metallogr., 43(3), 117 (1977). (Meta Phases, Crys Structure; Experimental)

    Google Scholar 

  • Indicates key paper.78Kau: L. Kaufman, “Coupled Phase Diagrams and Thermochemical Data for Transition Metal Binary Systems”, Part 3,Calphad, 2, 117 (1978). (Equi Diagram, Thermo; Review)

    Article  Google Scholar 

  • 78Shi: Y. Shimizu, Y. Tanabe, H. Tomita, and M. Kakegawa, “Crystal Growth, Microstructure and Phase Transition of Electrodeposited Cu−Co Alloys as Revealed by Electron Microscopy”,Kinzoku Hyomen Gijutsu, 29, 131 (1978) in Japanese. (Meta Phases, Crys Structure; Experimental)

    Google Scholar 

  • 79Agr: R. D. Agrawal, V. N. S. Mathur, and M. L. Kapoor, “Thermodynamics of Binary Copper-Bearing Substitutional Solutions”,Trans. Jpn. Inst. Met., 20, 323 (1979). (Thermo; Theory)

    Google Scholar 

  • 79Dek: I. Y. Dekhtyar, T. V. Efimova and B. I. Nikolin, “Effect of Crystal Structure and Stacking Faults on Magnetic Properties of Binary Cobalt Alloys”,Ukr. Fiz. Zh., 24, 1689 (1979) in Russian. (Crys Structure; Experimental)

    Google Scholar 

  • 79Kor: A. I. Korchagin and K. S. Aleksandrov, “Solid Solutions: Studying Solubility Components in Binary Systems”,Izv. Sibir. Otd. Akad. Nauk SSSR Khim., 6(14), 44 (1979) in Russian. (Thermo; Theory)

    Google Scholar 

  • 79Les: A. G. Lesnik, V. V. Nemoshkalenko, and A. A. Ovcharenko, “Computer Calculation of Phase Diagrams of Some Binary Alloys in the Subregular Solution Approximation”,Akad. Nauk Ukr. SSR, Metallofiz., 75, 20 (1979) in Russian. (Equi Diagram, Thermo; Theory)

    Google Scholar 

  • Indicates key paper.80Has: M. Hasebe and T. Nishizawa, “Calculation of Phase Diagrams of the Iron-Copper and Cobalt-Copper Systems”,Calphad, 4, 83 (1980). (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram.)

    Article  Google Scholar 

  • 81Ind: G. Inden, “The Role of Magnetism in the Calculation of Phase Diagrams”,Physica, 103B, 82 (1981). (Equi Diagram, Thermo; Theory)

    Google Scholar 

  • Indicates key paper.81Tim: L. Timberg, J. M. Toguri, and T. Azakami, “A Thermodynamic Study of Copper-Iron and Copper-Cobalt Liquid Alloys by Mass Spectrometry”,Met. Trans., 12B, 275 (1981). (Thermo; Experimental)

    Google Scholar 

  • Indicates key paper.82Has: M. Hasebe, K. Oikawa, and T. Nishizawa, “Computer Calculation of Phase Diagrams of Co−Cu−Mn and Co−Cu−Ni Systems”,J. Jpn. Inst. Met., 46, 584 (1982). (Equi Diagram, Thermo; Experimental)

    Google Scholar 

  • 82Ind: G. Inden, “The Effect of Continuous Transformations on Phase Diagrams”,Bull. Alloy Phase Diagrams, 2(4), 412–422 (1982). (Equi Diagram, Thermo; Theory)

    Google Scholar 

  • Indicates key paper.82Tas: P. Taskinen, “Activities and Thermodynamic Properties of Molten Co−Cu Alloys”,Z. Metallkd., 73, 445 (1982). (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram.)

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Departments of Metallurgy, Materials Science, and Metal Processing, Tohoku University, 980, Sendai, Japan

    T. Nishizawa & K. Ishida

Authors
  1. T. Nishizawa
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. K. Ishida
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

Literature searched through 1982. Professor Nishizawa is the ASM/NBS Data Program Category Editor for binary cobalt alloys.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Nishizawa, T., Ishida, K. The Co−Cu (Cobalt-Copper) system. Bulletin of Alloy Phase Diagrams 5, 161–165 (1984). https://doi.org/10.1007/BF02868953

Download citation

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF02868953

Keywords

Search

Navigation