The Role of Some Alloying Elements on Radiation Hardening in Pressure Vessel Steels

    Published: Jan 1973

      Format Pages Price  
    PDF (260K) 12 $25   ADD TO CART
    Complete Source PDF (11M) 12 $165   ADD TO CART


    Recent trends in nuclear-pressure-vessel steels for light-water reactors have been toward Ni-Cr-Mo steels. The effect of minor elements—for example, copper and phosphorus—also has been investigated. In this study, the role of nickel, chromium, molybdenum, and copper was investigated to understand the irradiation behavior of pressure vessel steel, using internal friction measurement, transmission electron microscopy (TEM), and mechanical testing. The materials used were Fe-1Ni, Fe-0.25Cr, Fe-0.5Mo, and Fe-0.2Cu. They were annealed or quenched and irradiated 1 ∼ 3 × 1019 nvt(>1MeV) at 60 C (140 F), and postirradiation annealing was performed in the range 150∼450 C (302∼842 F).

    The irradiation hardening was closely related to the amount of the solute nitrogen that corresponded to the amount of the complex defects in the aforementioned alloys. The irradiation hardening was primarily correlated with the strength of the interaction between solute nitrogen (or carbon) atoms. Other contributions of copper and molybdenum were considered.


    iron-containing alloys, irradiation, hardness, internal friction, electron microscopy, defects, nitrogen, radiation effects, mechanical tests

    Author Information:

    Igata, N
    Associate professor and research associate, University of Tokyo, Hongo Bunkyoku Tokyo,

    Watanabe, K
    Research staff, Japan Atomic Research Institute, Tokaimura,

    Sato, S
    Associate professor and research associate, University of Tokyo, Hongo Bunkyoku Tokyo,

    Paper ID: STP35435S

    Committee/Subcommittee: E10.07

    DOI: 10.1520/STP35435S

    CrossRef ASTM International is a member of CrossRef.