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RadiationInduced Changes in the Fracture Extension Resistance
Effect of Composition on the Sensitivity of Structural Steel
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316 stainless steel alloys aluminum American Society annealed ASTM austenitic behavior carbide carbon cladding cold-worked concentration copper creep rate damage function decrease defects diameter dislocation loops displacement dose ductility EBR-II electron embrittlement experimental fast neutron fast reactor fatigue foil fracture toughness fuel grain boundaries helium higher impurity increase interstitial irradiated and unirradiated irradiated specimens Irradiation Effects irradiation temperature Laboratory measured Mechanical Properties Metals and Alloys microstructure molybdenum neutron fluence neutron irradiation nitrogen Nuclear nucleation number density observed oxygen particles peak percent cold-worked postirradiation precipitate pressure vessel pressure vessel steels R-curve radiation effects radiation hardening Radiation on Substructure Radiation-Induced range rupture samples shown in Fig Society for Testing solution specimens irradiated strain rate Substructure and Mechanical swelling test temperature Testing and Materials thermal thermal neutron total elongation Type 316 stainless vacancy values vanadium void density void formation void growth yield strength yield stress