The effect of neutron spectrum on the mechanical and physical properties of pure copper and copper alloys

S.A. Fabritsiev, A.S. Pokrovsky, S.J. Zinkle, A.F. Rowcliffe, D.J. Edwards, F.A. Garner, V.A. Sandakov, B.N. Singh, V.R. Barabash

    Research output: Contribution to journalConference articleResearchpeer-review

    Abstract

    The electrical resistivity and tensile properties of copper and oxide dispersion strengthened (DS) copper alloys have been measured before and after fission neutron irradiation to damage levels of 0.5 to 5 displacements per atom (dpa) at similar to 100 to 400 degrees C. Some of the specimens were-irradiated inside a 1.5 mm Cd shroud in order to reduce the thermal neutron flux. The electrical resistivity data could be separated into two components, a solid transmutation component Delta rho(tr) which was proportional to thermal neutron fluence and a radiation defect component Delta rho(rd) which was independent of displacement dose. The saturation value for Delta rho(rd) was similar to 1.2 n Omega m for pure copper and similar to 1.6 n Omega m for the DS copper alloys irradiated at 100 degrees C in positions with a fast-to-thermal neutron flux ratio of 5, Considerable radiation hardening was observed in all specimens at irradiation temperatures below 200 degrees C. The yield strength was relatively insensitive to neutron spectrum in specimens strengthened by dispersoids or cold-working.
    Original languageEnglish
    JournalJournal of Nuclear Materials
    Volume233-237
    Issue numberPart A
    Pages (from-to)526-533
    ISSN0022-3115
    DOIs
    Publication statusPublished - 1996
    Event7th International Conference on Fusion Reactor Materials - Obninsk, Russian Federation
    Duration: 24 Sept 199528 Sept 1995
    Conference number: 7

    Conference

    Conference7th International Conference on Fusion Reactor Materials
    Number7
    Country/TerritoryRussian Federation
    CityObninsk
    Period24/09/199528/09/1995

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