Thermal Annealing of an Embrittled Reactor Vessel: Feasibility and MethodologyElectric Power Research Institute, 1989 - Annealing of metals |
Contents
Section Page | 49 |
MICROHARDNESS TEST TECHNIQUE | 55 |
DATA ANALYSIS AND EVALUATION | 61 |
Copyright | |
2 other sections not shown
Common terms and phrases
265 Point Beach A302B Plate annealed at 450°C annealing and reembrittlement annealing and reirradiation Annealing Data Annealing Kinetics annealing temperature ASTM ASTM STP Beaver Valley beneficial effects Benefit Factors benefits of annealing Charpy specimens Charpy transition temperature Conn Corr correlation between microhardness dosimetry effects of annealing Embrittled Reactor Vessel empirical model EPRI exposure fast neutron Ferritic Fracture Toughness high fluence irradiated pressure vessel irradiation capsules Lateral Shift Linde 80 long term benefit M.Y. HAZ WELD Maine Yankee Mancuso Material Specimen 1019n/cm² Mechanical properties microhardness and Charpy MICROHARDNESS MEASUREMENTS Fluence Nuclear Point Beach pressure vessel steels Prior to Starting QC II QC Quad Cities R. P. Shogan reactor pressure vessel reembrittlement rate reirradiation embrittlement reirradiation response specimens annealed Starting Anneal Anneal SUMMARY OF MICROHARDNESS surveillance capsule T. R. Mager test reactor thermal anneal procedure thermocouples unirradiated University of Virginia Vertical Shift vessel surveillance programs Westinghouse Electric Corporation yield stress