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TOPICAL REPORT EVALUATION Report Identification: BAW-10013 Report

Title:

Study of Intergranular Separations in Low Alloy Steel Heat-Affected Zones Under Austenitic Stainless Steel Weld Cladding Report Date: December 1971 with revised pages 2-1, 2-2, 2-3, 5-3 and 5-4 dated February 15, 1972 Originating Organization: Babcock and Wilcox Reviewed By: Materials Engineering Branch, AEC Directorate of Licensing, September 1972

SUMMARY

OF TOPICAL REPORT Intergranular separations in low alloy steel heat-affected zones under austenitic stainless steel weld claddings have been detected in reactor vessels constructed by various manufacturers which were clad by high-heat-input weld cladding processes.

B&W investigations revealed that the subject flaws are present only in SA-508, Class 2 forgings manufactured to a coarse grain practice, and clad by high-heat-input submerged are processes such as the 6 wire, strip, and the 2-wire. No anomalies were observed in SA-533 Grade B, Class 1 plate materials clad by any of the high-heat-input processes.

Their fracture mechanics studies revealed that a critical crack size, on the order of 4 inches, is required to initiate fast fracture. This is several orders of magnitude greater than the maximum flaw size (i.e.,

0.156 inch in depth and 0.500 inch in length) plus a predicted growth of 0.058 ir.ch over a 40 year period due to design fatigue cycles, and it is considered by B&W that the subject flaws would have no detrimental ef feet on the integrity of B&W vessels under all operating conditions during the design life of the vessel.

SUMMARY

OF REGULATORY EVALUATIONS We consider rhe findings of B&W that the flaws are present only in SA-

~503 Class 2 coarse Brain forgings, but not in SA-533 Grade B, Class 1 plates when clad by high-heat-input processes valid, since they have been confirmed by other investigators. We have reviewed B&W's fracture I

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t mechanics analysis and agree with their statement regarding critical crack size. However, their calculations on crack growth are based on controlled short term experiments, which do not necessarily reflect actual reactor operating conditions. However, even if the crack growth were several times greater than calculated, the initial maximum flaw size plus such a value would still be relatively insignificant when com-pared to the critical crack size, which was determined to be of approxi-mately 4 inches.

SUK4ARY OF REGULATORY POSITION We concur with B&W's finding that the integrity of a vessel having flaws such as described in the subject report would not be compromised during the life of the plant. This report is acceptable and may be referenced in future case applications where similar underclad grain boundary separations have been detected. However, such flaws should be avoided and we recommend that future applicants state in their PSARa what steps they plan to take in this regard.

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