ML060950356
Text
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 1
AUDIT WORKSHEET GALL REPORT AMP PLANT: ______________________________
LRA AMP: __________________________
REVIEWER: ______________________
GALL AMP: XI.M13, Thermal Aging and Neutron Irradiation Embrittlement of Cast Austenitic Stainless Steel (CASS)
DATE: __________________________
Program Element Auditable GALL Criteria Documentation of Audit Finding Program Description A. The reactor vessel internals receive a visual inspection in accordance with the American Society of Mechanical Engineers (ASME) Code Section XI, Subsection IWB, Category B-N-3.
This inspection is augmented to detect the effects of loss of fracture toughness due to thermal aging and neutron irradiation embrittlement of cast austenitic stainless steel (CASS) reactor vessel internals. This aging management program (AMP) includes (a) identification of susceptible components determined to be limiting from the standpoint of thermal aging susceptibility (i.e., ferrite and molybdenum contents, casting process, and operating temperature) and/or neutron irradiation embrittlement (neutron fluence), and Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
B. (b) for each potentially susceptible component, aging management is accomplished through either a supplemental examination of the affected component based on the neutron fluence to which the component has been exposed as part of the applicants 10-year inservice inspection (ISI) program during the license renewal term, or a component-specific evaluation to determine its susceptibility to loss of fracture toughness.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 1. Scope of Program A. The program provides screening criteria to determine the susceptibility of CASS components to thermal aging on the basis of casting method, molybdenum content, and percent ferrite. The screening criteria are applicable to all primary pressure boundary and reactor vessel internal components Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 2
Program Element Auditable GALL Criteria Documentation of Audit Finding constructed from SA-351 Grades CF3, CF3A, CF8, CF8A, CF3M, CF3MA, CF8M, with service conditions above 250°C (482°F). The screening criteria for susceptibility to thermal aging embrittlement are not applicable to niobium-containing steels; such steels require evaluation on a case-by-case basis. For potentially susceptible components, the program provides for the consideration of the synergistic loss of fracture toughness due to neutron embrittlement and thermal aging embrittlement.
For each such component, an applicant can implement either (a) a supplemental examination of the affected component as part of a 10-year ISI program during the license renewal term, or (b) a component-specific evaluation to determine the components susceptibility to loss of fracture toughness.
Comment B. Based on the criteria set forth in the May 19, 2000 letter from Christopher Grimes, Nuclear Regulatory Commission (NRC), to Mr. Douglas Walters, Nuclear Energy Institute (NEI), the susceptibility to thermal aging embrittlement of CASS components is determined in terms of casting method, molybdenum content, and ferrite content. For low-molybdenum content (0.5 wt.% max.) steels, only static-cast steels with >20%
ferrite are potentially susceptible to thermal embrittlement.
Static-cast low-molybdenum steels with 20% ferrite and all centrifugal-cast low-molybdenum steels are not susceptible. For high-molybdenum content (2.0 to 3.0 wt.%) steels, static-cast steels with >14% ferrite and centrifugal-cast steels with >20%
ferrite are potentially susceptible to thermal embrittlement.
Static-cast high-molybdenum steels with 14% ferrite and centrifugal-cast high-molybdenum steels with 20% ferrite are not susceptible. In the susceptibility screening method, ferrite content is calculated by using the Hulls equivalent factors (described in NUREG/CR-4513, Rev. 1) or a method producing an equivalent level of accuracy (+/-6% deviation between measured and calculated values). A fracture toughness value of 255 kJ/m2 (1,450 in.-lb/in.2) at a crack depth of 2.5 mm (0.1 in.)
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 3
Program Element Auditable GALL Criteria Documentation of Audit Finding is used to differentiate between CASS materials that are nonsusceptible and those that are potentially susceptible to thermal aging embrittlement. Extensive research data indicate that for nonsusceptible CASS materials, the saturated lower-bound fracture toughness is greater than 255 kJ/m2 (NUREG/CR-4513, Rev. 1).
- 2. Preventive Actions A. The program consists of evaluation and inspection and provides no guidance on methods to mitigate thermal aging and neutron irradiation embrittlement.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 3. Parameters Monitored/
Inspected A. The program specifics depend on the neutron fluence and thermal embrittlement susceptibility of the component. The AMP monitors the effects of loss of fracture toughness on the intended function of the component by identifying the CASS materials that either have a neutron fluence of greater than 1017 n/cm2 (E>1 MeV) or are determined to be susceptible to thermal aging embrittlement. For such materials, the program consists of either supplemental examination of the affected component based on the neutron fluence to which the component has been exposed, or component-specific evaluation to determine the components susceptibility to loss of fracture toughness.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 4. Detection of Aging Effects A. For reactor vessel internal CASS components that have a neutron fluence of greater than 1017 n/cm2 (E>1 MeV) or are determined to be susceptible to thermal embrittlement, the 10-year ISI program during the renewal period includes a supplemental inspection covering portions of the susceptible components determined to be limiting from the standpoint of thermal aging susceptibility (i.e., ferrite and molybdenum contents, casting process, and operating temperature), neutron fluence, and cracking susceptibility (i.e., applied stress, operating temperature, and environmental conditions). The Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 4
Program Element Auditable GALL Criteria Documentation of Audit Finding inspection technique is capable of detecting the critical flaw size with adequate margin. The critical flaw size is determined based on the service loading condition and service-degraded material properties. One example of a supplemental examination is enhancement of the visual VT-1 examination of Section XI IWA-2210. A description of such an enhanced visual VT-1 examination could include the ability to achieve a 0.0005-in.
resolution, with the conditions (e.g., lighting and surface cleanliness) of the inservice examination bounded by those used to demonstrate the resolution of the inspection technique.
B. Alternatively, the applicant may perform a component-specific evaluation, including a mechanical loading assessment to determine the maximum tensile loading on the component during ASME Code Level A, B, C, and D conditions. If the loading is compressive or low enough (<5 ksi) to preclude fracture, then supplemental inspection of the component is not required. Failure to meet this criterion requires continued use of the supplemental inspection program. For each CASS component that has been subjected to a neutron fluence of less than 1017 n/cm2 (E>1 MeV) and is potentially susceptible to thermal aging, the supplement inspection program applies; otherwise, the existing ASME Section XI inspection requirements are adequate if the components are not susceptible to thermal aging embrittlement.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 5. Monitoring and Trending A. Inspections scheduled in accordance with IWB-2400 and reliable examination methods provide timely detection of cracks.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 5
Program Element Auditable GALL Criteria Documentation of Audit Finding
- 6. Acceptance Criteria A. Flaws detected in CASS components are evaluated in accordance with the applicable procedures of IWB-3500. Flaw tolerance evaluation for components with ferrite content up to 25% is performed according to the principles associated with IWB-3640 procedures for submerged arc welds (SAW),
disregarding the Code restriction of 20% ferrite in IWB-3641(b)(1). Extensive research data indicate that the lower-bound fracture toughness of thermally aged CASS materials with up to 25% ferrite is similar to that for SAWs with up to 20%
ferrite (Lee et al., 1997). Flaw evaluation for CASS components with >25% ferrite is performed on a case-by-case basis by using fracture toughness data provided by the applicant.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 7. Corrective Actions A. Repair is performed in conformance with IWA-4000 and IWB-4000, and replacement in accordance with IWA-7000 and IWB-7000. As discussed in the appendix to this report, the staff finds the requirements of 10 CFR Part 50, Appendix B, acceptable to address the corrective actions.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 8.
Confirmation Process A. Site quality assurance (QA) procedures, review and approval processes, and administrative controls are implemented in accordance with the requirements of 10 CFR Part 50, Appendix B. As discussed in the appendix to this report, the staff finds the requirements of 10 CFR Part 50, Appendix B, acceptable to address the confirmation process and administrative controls.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 9.
Administrative Controls A. See Item 8, above.
Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
Comment:
- 10. Operating Experience A. The AMP was developed by using research data obtained on both laboratory-aged and service-aged materials. Based on this information, the effects of thermal aging embrittlement on the intended function of CASS components are effectively Consistent with GALL AMP:
Yes No Document(s) used to confirm Criteria:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 6
Program Element Auditable GALL Criteria Documentation of Audit Finding managed.
Comment:
XI.M13 Thermal Aging and Neutron Irradiation Embrittlement of CASS 7
EXCEPTIONS Item Number Program Elements LRA Exception Description Basis for Accepting Exception Documents Reviewed (Identifier, Para.# and/or Page #)
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ENHANCEMENTS Item Number Program Elements LRA Enhancement Description Basis for Accepting Enhancement Documents Reviewed (Identifier, Para.# and/or Page #)
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DOCUMENT REVIEWED DURING AUDIT Document Number Identifier (number)
Title Revision and/or Date
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