NOTCH DUCTILITY AND TENSILE PROPERTY EVALUATION OF THE PM-2A REACTOR PRESSURE VESSEL.

Abstract

Following the pressurization-to-failure testing of the PM-2A reactor pressure vessel, several sections of steel were removed from the vessel wall in a region adjacent to the artificial defect. Charpy V-notch and tension test specimens machined from one of these sections have been evaluated. The irradiated-condition 30 ft-lb transition temperatures for the 1/4-thickness (nearest to the core) and 3/4-thickness locations in the vessel wall were +115F and +55F, respectively, for measured fission-spectrum fluences of 7.3 and 4.0 X 10 to the 18th power n/sq cm (greater than 1 Mev). The 1/4-thickness properties and fluence most nearly represented those at the tip of the artificial defect. The 0.2% yield strength for the 1/4-thickness location was 97,620 psi at -20F (failure temperature) and 92,200 psi at +72F (temperature at time of acid-sharpening treatment of artificial defect). Significant uniform elongation, reduction of area, and elongation per 1 in. were retained by the steel. An assessment of the stress, temperature, and flaw-size conditions for the PM-2A failure, as indexed by the irradiated-condition mechanical properties, indicates that the failure is in agreement with the generalized fracture analysis diagram. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jun 19, 1968

Accession Number

AD0672890

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