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W1993893856 abstract "The microstructure of copper and three single-phase copper alloys (Cu-5% Al, Cu-5% Mn, Cu-5% Ni) has been examined following a room-temperature 14-MeV neutron irradiation up to a maximum fluence of2× 1021n/m2 (10−3 dpa). The irradiation produced small defect clusters, many of which were resolvable as stacking fault tetrahedra (SFT) or triangle loops. Alloying did not affect the overall cluster density or size distribution, but it did cause a significant reduction in the density of SFT and triangle loops. The overall defect cluster size was independent of fluence with a mean and most probable diameter of ~ 2.6 and ~ 1.7 nm, respectively. There was no evidence of direct cascade overlap in this study. Cascade overlap effects are estimated to become significant for fluences ~1022nm2. The overall defect cluster density was found to vary as N ~√φt with a short transition period for all four metals. Re-examination of published data indicates that this relationship may be broadly applicable over the irradiation temperature range of 80 to 400 K. Logarithmic plots of the cluster density versus fluence showed anomalous curvature due to the nonlinear defect survival rate. Logarithmic plots should not be used exclusively to determine the fluence dependence of radiation damage processes." @default.
W1993893856 created "2016-06-24" @default.
W1993893856 creator A5057303470 @default.
W1993893856 date "1987-10-01" @default.
W1993893856 modified "2023-10-18" @default.
W1993893856 title "Microstructure and properties of copper alloys following 14-mev neutron irradiation" @default.
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W1993893856 doi "https://doi.org/10.1016/0022-3115(87)90070-5" @default.
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