Provides requirements to maintain the nuclear power plant while in operation and to return the plant to service following plant outages. The rules require a mandatory program to evidence adequate safety and manage deterioration and aging effects. The rules also stipulate duties of the Authorized Nuclear Inservice Inspector to verify that the mandatory program has been completed, permitting the plant to return to service in a safe and expeditious manner. Application of this Section begins when the requirements of the construction code have been satisfied. DIVISION 1 This Division provides rules for the examination, inspection, and testing; NDE methods, qualifications, and requirements; evaluation and acceptance standards for flaws, defects, and relevant conditions; repair/replacement processes and correction actions/measures in light water cooled nuclear power plants. Careful application of this Section will help users to comply with applicable regulations within their jurisdictions, while achieving the operational, cost and safety benefits to be gained from the many industry best-practices detailed within these volumes.

PDF Catalog

PDF Pages	PDF Title
69	IWA-1600-1 Referenced Standards and Specifications
73	IWA-2211-1 Visual Examinations
76	IWA-2322-1 Near‐Distance Acuity Test Distances and Character Heights
78	IWA-2324-1 Practical Examination NDE Techniques
82	IWA-3310-1 Surface Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface Illustrative Flaw Configurations and Determination of Dimensions a and ℓ (1/2 in. = 13 mm)
84	IWA-3320-1 Subsurface Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface Illustrative Flaw Configurations and Determination of Dimensions 2a and ℓ Where S ≥ 0.4a (1 in. = 25 mm)
85	IWA-3320-2 Successive Examination Surface Proximity Rule for Class 1 and Class 2 Vessels
86	IWA-3330-1 Multiple Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface
87	IWA-3340-1 Nonplanar Elliptical Subsurface Flaws
88	IWA-3350-1 Parallel Planar Flaws
89	IWA-3360-1 Laminar Flaws
90	IWA-3380-1 Nonaligned Coplanar Flaws in Plane Normal to Pressure-Retaining Surface Illustrative Flaw Configurations
91	IWA-3390-1 Multiple Aligned Planar Flaws (1/2 in. = 13 mm)
92	IWA-3400-1 Linear Surface Flaws Illustrative Flaw Configurations and Determination of Length ℓ (1/2 in. = 13 mm)
104	IWA-4461.1-1 Minimum Preheat Temperature, °F (°C)
111	IWA-4662.1-1 Depth Limitations for Underwater Welding Qualification
113	IWA-4663.1-1 Carbon Equivalency Calculation IWA-4662.1-2 Procedure and Performance Qualification — Position Limitations
119	IWA-4712.2-1 Examples of Extension and Recess of Tube and Plug
140	IWB-2411-1 Inspection Program
142	IWB-2420-1 Successive Examination Surface Proximity Rule for Piping Components IWB-2420-1 Surface Proximity Rules for Successive Examinations of Piping Components
146	IWB-2500-1 (B-A) Examination Category B-A, Pressure-Retaining Welds in Reactor Vessel
147	IWB-2500-1 (B-B) Examination Category B-B, Pressure-Retaining Welds in Vessels Other Than Reactor Vessels
149	IWB-2500-1 (B-D) Examination Category B-D, Full Penetration Welded Nozzles in Vessels
151	IWB-2500-1 (B-F) Examination Category B-F, Pressure-Retaining Dissimilar Metal Welds in Vessel Nozzles
153	IWB-2500-1 (B-G-1) Examination Category B-G-1, Pressure-Retaining Bolting, Greater Than 2 in. (50 mm) in Diameter
156	IWB-2500-1 (B-G-2) Examination Category B-G-2, Pressure-Retaining Bolting, 2 in. (50 mm) and Less in Diameter
157	IWB-2500-1 (B-J) Examination Category B-J, Pressure-Retaining Welds in Piping
159	IWB-2500-1 (B-K) Examination Category B-K, Welded Attachments for Vessels, Piping, Pumps, and Valves
160	IWB-2500-1 (B-L-2, B-M-2) Examination Categories B-L-2, Pump Casings; B-M-2, Valve Bodies
161	IWB-2500-1 (B-N-1, B-N-2, B-N-3) Examination Categories B-N-1, Interior of Reactor Vessel; B-N-2, Welded Core Support Structures and Interior Attachments to Reactor Vessels; B-N-3, Removable Core Support Structures
162	IWB-2500-1 (B-O) Examination Category B-O, Pressure-Retaining Welds in Control Rod Drive and Instrument Nozzle Housings
163	IWB-2500-1 (B-P) Examination Category B-P, All Pressure-Retaining Components
164	IWB-2500-1 (B-Q) Examination Category B-Q, Steam Generator Tubing
165	IWB-2500-1 Vessel Shell Circumferential Weld Joints
166	IWB-2500-2 Vessel Shell Longitudinal Weld Joints
167	IWB-2500-3 Spherical Vessel Head Circumferential and Meridional Weld Joints
168	IWB-2500-4 Shell‐to‐Flange Weld Joint
169	IWB-2500-5 Head‐to‐Flange Weld Joint
170	IWB-2500-6 Typical Tubesheet‐to‐Head Weld Joints
171	IWB-2500-7(a) Nozzle in Shell or Head (Examination Zones in Barrel-Type Nozzles Joined by Full Penetration Corner Welds)
172	IWB-2500-7(b) Nozzle in Shell or Head (Examination Zones in Flange Type Nozzles Joined by Full Penetration Butt Welds)
173	IWB-2500-7(c) Nozzle in Shell or Head (Examination Zones in Set-On Type Nozzles Joined by Full Penetration Corner Welds)
174	IWB-2500-7(d) Nozzle in Shell or Head (Examination Zone in Nozzles Integrally Cast or Formed in Shell or Head, or in Nozzles Fabricated From Weld Buildups)
175	IWB-2500-8 Similar and Dissimilar Metal Welds in Components, Nozzles, and Piping
178	IWB-2500-9 Pipe Branch Connection
179	IWB-2500-10 Pipe Branch Connection
180	IWB-2500-11 Pipe Branch Connection
181	IWB-2500-12(a) Stud and Threads in Flange Stud Hole
182	IWB-2500-12(b) Pressure-Retaining Bolts (Integral Head With Shank)
183	IWB-2500-12(c) Pressure-Retaining Bolts (Integral Head Without Shank)
184	IWB-2500-13 Welded Attachment
185	IWB-2500-14 Welded Attachment
186	IWB-2500-15 Welded Attachment
187	IWB-2500-18 Control Rod Drive and Instrument Nozzle Housing Welds
188	IWB-2500-20 Extent of Weld Examination
192	IWB-3410-1 Acceptance Standards
193	IWB-3510-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWB-3510.4 IWB-3510-2 Allowable Laminar Flaws
194	IWB-3510-3 Allowable Linear Flaws Ferritic steel materials that meet the requirements of IWB-3510.4
195	IWB-3512-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWB-3510.4 IWB-3512-2 Component Thickness Versus Flaw Location
196	IWB-3514-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWB-3510.4
197	IWB-3514-2 Allowable Linear Flaws Material: Austenitic steels that meet the requirements for the specified minimum yield strength of 35 ksi (240 MPa) or less at 100°F (40°C)
198	IWB-3514-3 Allowable Laminar Flaws IWB-3514-4 Allowable Linear Flaws Ferritic steel materials that meet the requirements of IWB-3510.4
199	IWB-3515-1 Allowable Planar Flaws Materials: SA-193 Grade B7, SA-320 Grade L43, SA-540 Class 3 Grades B23, B24 that meet the requirements of NB-2333
201	IWB-3519.2-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWB-3510.4
202	IWB-3519.2-2 Allowable Planar Flaws Material: Austenitic stainless steels that meet the requirements for the specified minimum yield strength of 35 ksi (240 MPa) or less at 100°F (40°C)
204	IWB-3600-1 Characterization and Proximity Rules for Analytical Evaluation of Clad Components
207	IWB-3662-1 Definition of Circumferential Orientation for Flaw Characterization
208	IWB-3663-1 Reactor Vessel Head Penetration Nozzle Acceptance Criteria
210	IWB-5230-1 Test Pressure
213	IWC-2411-1 Inspection Program
217	IWC-2500-1 (C-A) Examination Category C-A, Pressure-Retaining Welds in Pressure Vessels
218	IWC-2500-1 (C-B) Examination Category C-B, Pressure-Retaining Nozzle Welds in Pressure Vessels
219	IWC-2500-1 (C-C) Examination Category C-C, Welded Attachments for Pressure Vessels, Piping, Pumps, and Valves
220	IWC-2500-1 (C-D) Examination Category C-D, Pressure-Retaining Bolting Greater Than 2 in. (50 mm) in Diameter
221	IWC-2500-1 (C-F-1) Examination Category C-F-1, Pressure-Retaining Welds in Austenitic Stainless Steel or High Alloy Piping
223	IWC-2500-1 (C-F-2) Examination Category C-F-2, Pressure-Retaining Welds in Carbon or Low Alloy Steel Piping
225	IWC-2500-1 (C-H) Examination Category C-H, All Pressure-Retaining Components
226	IWC-2500-1 (C-J) Examination Category C-J, Buried Piping and Components
227	IWC-2500-1 Vessel Circumferential Welds
228	IWC-2500-2 Typical Tubesheet‐to‐Shell Circumferential Welds (Steam Generator Designs)
229	IWC-2500-3 Nozzle‐to‐Vessel Welds
230	IWC-2500-4 Nozzle‐to‐Vessel Welds
234	IWC-2500-5 Welded Attachments
235	IWC-2500-6(a) Pressure-Retaining Bolting
236	IWC-2500-6(b) Pressure-Retaining Bolting (Integral Head With Shank)
237	IWC-2500-6(c) Pressure-Retaining Bolting (Integral Head Without Shank)
238	IWC-2500-7 Welds in Piping
240	IWC-2500-9 Branch Connection Welds
241	IWC-2500-10 Pipe Branch Connection
242	IWC-2500-11 Pipe Branch Connection
243	IWC-2500-12 Pipe Branch Connection
244	IWC-2500-13 Pipe Branch Connection
247	IWC-3410-1 Acceptance Standards
248	IWC-3510-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWC-3510.5 IWC-3510-2 Allowable Laminar Flaws IWC-3510-3 Allowable Linear Flaws Ferritic steel materials that meet the requirements of IWC-3510.5
250	IWC-3511-1 Allowable Planar Flaws Ferritic steel materials that meet the requirements of IWC-3510.5 IWC-3511-2 Allowable Linear Flaws Ferritic steel materials that meet the requirements of IWC-3510.5
251	IWC-3513-1 Allowable Planar Flaws Material: SA-193, SA-320, SA-354, SA-540 that meet the requirements of Section III, Subsection NCD, NCD-2333 (Class 2 Only); or Section III, Subsection NC, NC-2333; and the specified minimum yield strength between 95 ksi (655 MPa) and 130 ksi (900 MPa) at 100°F (40°C)
252	IWC-3514-1 Allowable Planar Flaws Material: Austenitic steels that meet the requirements for the specified minimum yield strength of 35 ksi (240 MPa) or less at 100°F (40°C)
258	IWD-2411-1 Inspection Program
261	IWD-2500-1 (D-A) Examination Category D-A, Welded Attachments for Pressure Vessels, Piping, Pumps, and Valves
262	IWD-2500-1 (D-B) Examination Category D-B, All Pressure-Retaining Components
263	IWD-2500-1 (D-C) Examination Category D-C, Buried Piping and Components
264	IWD-2500-1 Welded Attachments
266	IWD-3410-1 Acceptance Standards
274	IWE-2411-1 Inspection Program
276	IWE-2500-1 (E-A) Examination Category E-A, Containment Surfaces
277	IWE-2500-1 (E-C) Examination Category E-C, Containment Surfaces Requiring Augmented Examination
278	IWE-2500-1 (E-G) Examination Category E-G, Pressure-Retaining Bolting
279	IWE-2500-1 Examination Areas for Moisture Barriers
286	IWF-1300-1 Illustrations of Typical Support Examination Boundaries
288	IWF-2410-1 Inspection Program
291	IWF-2500-1 (F-A) Examination Category F-A, Supports
298	IWL-2500-1 (L-A) Examination Category L‐A, Concrete
299	IWL-2500-1 (L-B) Examination Category L‐B, Unbonded Post-Tensioning System
301	IWL-2521-1 Number of Tendons for Examination
302	IWL-2521-2 Augmented Examination Requirements Following Post‐Tensioning System Repair/Replacement Activities
304	IWL-2525-1 Corrosion Protection Medium Analysis
311	I-2000-1 Required Supplements
314	I-3200-1 Ferritic, Austenitic, or Dissimilar Metal Weld
318	I-S4 Alternative Calibration Block (10 in. = 250 mm, 3 in. = 75 mm, 2 in. = 50 mm, 1 in. = 25 mm)
321	NIS-2 Owner’s Repair/Replacement Certification Record
322	II-1 Guide for Completing Form NIS-2
323	OAR-1 Owner’s Activity Report
325	II-2 Guide for Completing Form OAR-1
327	III-2120-1 Maximum Nominal Search Unit Sizes
331	III-3430-1 Allowable Notch Configurations
332	III-3430-1 Surface Notch Depths for Ultrasonic Calibration
333	III-3430-2 Recommended Design for Basic Calibration Blocks
340	IV-3110-1
344	2.3.2-1 Instrument Linearity
348	3.2.2-1 Detection Performance Criteria for Open (Nonblind) Procedure Demonstration
349	3.3-1 Eddy Current Blind Test Detection and False Call Criteria
350	IV Supplement A: Data Acquisition Procedure Specification
351	IV Supplement B: Data Analysis Procedure Specification
361	VII-4110-1 Required Experience for Initial Certification for Ultrasonic Examination (Hours)
362	VII-4220-1 Initial Training Hours (Classroom/Laboratory)
370	VIII-3110-1 Component Qualification Supplements
376	VIII-S1-1A System Configuration
377	VIII-S1-1B Test Configuration
378	VIII-S1-2A Frequency Response Curve
379	VIII-S2-1 Performance Demonstration Detection Test Acceptance Criteria
380	VIII-S4-1 Personnel Detection Test Acceptance Criteria
382	VIII-S5-1 Misorientation Angle
383	VIII-S5-2 Flaw Distribution Zones
385	VIII-S6-1 Detection and Sizing Test Flaws and Locations
386	VIII-S6-1 Definition of Statistical Parameters
388	VIII-S8-1 Maximum Notch Dimensions
391	VIII-S10-1 Personnel Performance Demonstration Detection Test Acceptance Criteria
397	VIII-S15-1 Location Tolerances VIII-S15-2 Flaw Detection Criteria
400	X-1 Standard Units for Use in Equations
408	A-3100-1 Elliptical Flaw Models
409	A-3210-1 Definition of x Distance Through the Wall for the Surface Flaws
410	A-3210-2 Definition of x Distance for the Subsurface Flaw Stress Definition
411	A-3210-3 Linearization of Stress Versus Distance Through the Wall
419	A-3530-1 Cylindrical Flaw Geometry A-3531-1 360-deg Inside Surface Flaw Geometry
420	A-3531-1 Coefficients for 360-deg Circumferential Inside Surface Flaw Equation
424	A-3532-1 Coefficients for Semielliptical Circumferential Inside Surface Flaw Equations, Deepest Point (Point 1)
425	A-3532-2 Coefficients for Semielliptical Circumferential Inside Surface Flaw Equations, Surface Point (Point 2)
426	A-3540-1 Cylindrical Semielliptical Outside Surface Flaw Geometry
427	A-3541-1 360-deg Outside Surface Flaw Geometry
428	A-3541-1 Coefficients for 360-deg Circumferential Outside Surface Flaw Equation
432	A-3542-1 Coefficients for Semielliptical Circumferential Outside Surface Flaw Equations, Deepest Point (Point 1)
433	A-3542-2 Coefficients for Semielliptical Circumferential Outside Surface Flaw Equations, Surface Point (Point 2)
434	A-3550-1 Axial Inside Surface Flaw in a Cylinder A-3551-1 Axial Inside Surface Flaw With a/ℓ = 0 in a Cylinder
444	A-3560-1 Axial Outside Surface Flaw in a Cylinder
445	A-3561-1 Axial Outside Surface Flaw With a/ℓ = 0 in a Cylinder
455	A-3610-1 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.0
458	A-3610-2 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.1
461	A-3610-3 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.2
464	A-3610-4 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.3
467	A-3610-5 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.4
470	A-3610-6 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ℓ = 0.5
473	A-3620-1 Coefficients G0 Through G4 for Flat Plate Surface Crack With Flaw Aspect Ratio, a/ℓ = 0.0 A-3620-2 Coefficients G0 Through G4 for Flat Plate Surface Crack at Point 1
475	A-3620-3 Coefficients G0 Through G4 for Flat Plate Surface Crack at Point 2
477	A-3630-1 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
478	A-3630-2 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
479	A-3630-3 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
480	A-3630-4 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
481	A-3630-5 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
482	A-3630-6 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
483	A-3630-7 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
484	A-3630-8 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
485	A-3630-9 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 2, a/ℓ > 0.5), Deepest Point (Point 1)
486	A-3630-10 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 2, a/ℓ > 0.5), Surface Point (Point 2)
487	A-3630-11 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5, a/ℓ > 0.5), Deepest Point (Point 1)
488	A-3630-12 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5, a/ℓ > 0.5), Surface Point (Point 2)
489	A-3630-13 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10, a/ℓ > 0.5), Deepest Point (Point 1)
490	A-3630-14 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10, a/ℓ > 0.5), Surface Point (Point 2)
491	A-3630-15 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20, a/ℓ > 0.5), Deepest Point (Point 1)
492	A-3630-16 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20, a/ℓ > 0.5), Surface Point (Point 2)
493	A-3640-1 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
494	A-3640-2 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
495	A-3640-3 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
496	A-3640-4 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
497	A-3640-5 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
498	A-3640-6 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
499	A-3640-7 Coefficients Gifor Circumferential Semielliptical Outside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
500	A-3640-8 Coefficients Gi for Circumferential Semielliptical Outside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
501	A-3650-1 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
502	A-3650-2 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
503	A-3650-3 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
504	A-3650-4 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
505	A-3650-5 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
506	A-3650-6 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
507	A-3650-7 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
508	A-3650-8 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
509	A-3650-9 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 2, a/ℓ > 0.5), Deepest Point (Point 1)
510	A-3650-10 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 2, a/ℓ > 0.5), Surface Point (Point 2)
511	A-3650-11 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5, a/ℓ > 0.5), Deepest Point (Point 1)
512	A-3650-12 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5, a/ℓ > 0.5), Surface Point (Point 2)
513	A-3650-13 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10, a/ℓ > 0.5), Deepest Point (Point 1)
514	A-3650-14 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10, a/ℓ > 0.5), Surface Point (Point 2)
515	A-3650-15 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20, a/ℓ > 0.5), Deepest Point (Point 1)
516	A-3650-16 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20, a/ℓ > 0.5), Surface Point (Point 2)
517	A-3660-1 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
518	A-3660-2 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
519	A-3660-3 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
520	A-3660-4 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
521	A-3660-5 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
522	A-3660-6 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
523	A-3660-7 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
524	A-3660-8 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
526	A-4200-1 Materials With Specified Minimum Yield Strength Greater Than 50 ksi (350 MPa) But Not Exceeding 90 ksi (620 MPa) Permitted to Use Figure A-4200-1 (Figure A-4200-1M)
527	A-4200-1 Lower Bound KIa and KIc for Carbon and Low Alloy Steels
528	A-4200-1M Lower Bound KIa and KIc for Carbon and Low Alloy Steels
532	A-5400-1 Determination of Critical Flaw Sizes for Postulated Conditions
536	C-1100-1 Weld Material–Base Material Interface Definition for Flaw Location
541	C-2200-1 Flaw Characterization — Circumferential Flaws
542	C-2200-2 Flaw Characterization — Axial Flaws
543	C-2400-1 Flaw Characterization — Skewed Axial Flaws Projected Into Axial Plane
544	C-2400-2 Flaw Characterization — Skewed Circumferential Flaws Projected Into Circumferential Plane
545	C-2400-3 Flaw Characterization — Compound Skewed Flaw Projected Into Circumferential and Axial Planes
554	C-4210-1 Flowchart for Selecting Analysis Method for Austenitic Piping
555	C-4220-1 Flowchart for Selecting Analysis Method for Ferritic Piping
556	C-4310-1 Circumferential Surface Flaw Geometry C-4310-2 Axial Surface Flaw Geometry
557	C-4310-3 Circumferential Subsurface Flaw Geometry C-4310-4 Axial Subsurface Flaw Geometry
558	C-4310-5 Semielliptical Circumferential Inside Surface Flaw Geometry
563	C-5200-1 Flowchart for Allowable Flaw Size Determination for Fully Plastic Fracture Using Limit Load Method
564	C-5310-1 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Circumferential Flaws — Service Level A Conditions
565	C-5310-2 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Circumferential Flaws — Service Level B Conditions
566	C-5310-3 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Circumferential Flaws — Service Level C Conditions
567	C-5310-4 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Circumferential Flaws — Service Level D Conditions
568	C-5310-5 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Circumferential Flaws — Pure Membrane Stress
569	C-5410-1 Allowable End‐of‐Evaluation‐Period Flaw Depth‐to‐Thickness Ratio for Axial Flaws
576	C-6200-1 Flowchart for Allowable Flaw Size Determination for Ductile Fracture Using EPFM Method
577	C-6330-1 Load Multipliers for Ferritic Steel Base Metals, Weldments, and CF8M or Equivalent Chemical Composition Cast Product C-6330-2 Load Multipliers for Ferritic Steel Base Metals and Weldments for User‐Specified Data
579	C-6330-2M Load Multipliers for Ferritic Steel Base Metals and Weldments for User‐Specified Data
580	C-6430-1 Coefficients Cn of Z0 Equation for Z-Factor Based on Fracture Toughness, JIc
584	C-7200-1 Flowchart for Allowable Flaw Size Determination for Nonductile Fracture Using LEFM Methods
587	C-8321-1 Material Properties for Ferritic Steel Base Metals and Weldments — Circumferential Flaws C-8321-2 Temperature for Onset of Upper-Shelf Behavior for Axial and Circumferential Flaws in Ferritic Steel Base Metals and Weldments
588	C-8322-1 Material Properties for Ferritic Steel Base Metals and Weldments — Axial Flaws
591	E-1 Maximum Allowable Pressure as a Function of Tc − RTNDT for Isothermal Pressure Transients [ΔTc/Δt < 10°F/hr (5.5°C/h)] for Design Pressures Greater Than 2,400 psig (16.5 MPa) E-2 Input for Plant and Event Specific Linear Elastic Fracture Mechanics Analytical Evaluation
594	G-2110-1 Materials With Specified Minimum Yield Strength Greater Than 50 ksi (350 MPa) But Not Exceeding 90 ksi (620 MPa) Permitted to Use Figure G-2210-1 (Figure G-2210-1M)
604	G-2210-1 Reference Critical Stress Intensity Factor for Material
605	G-2210-1M Reference Critical Stress Intensity Factor for Material
606	G-2214-1 Mt vs. Wall Thickness for Postulated Inside Surface Reference Flaws
607	G-2214-1M Mt vs. Wall Thickness for Postulated Inside Surface Reference Flaws
608	G-2214-2 Through-Wall Temperature Difference vs. Wall Depth for Heatup or Cooldown
609	G-2223-1 Postulated Nozzle Corner Defect
620	H-4200-1 Specified Structural Factors for Circumferential Flaws
621	H-4300-1 Failure Assessment Diagram for Ferritic Piping H-4200-2 Specified Structural Factors for Axial Flaws
622	H-4300-2 Failure Assessment Diagram for Austenitic Piping H-4400-1 Circumferential Flaw Geometry
623	H-4400-2 Axial Flaw Geometry
625	J-1000-1 Decision Tree
641	K-4310-1 Comparison of the Slopes of the Applied J‐Integral Curve and the J‐R Curve K-4320-1 Failure Assessment Diagram for the One‐Quarter Wall Thickness Flaw
642	K-4320-1 Coordinates of the Failure Assessment Diagram Curves of Figure K-4320-1
643	K-4330-1 Illustration of the J‐Integral/Tearing Modulus Procedure
649	L-3110-1 Flowchart for Flaw Tolerance Analytical Evaluation
650	L-3210-1 Ferritic Piping Postulated Equivalent Single Crack Aspect Ratios (a/ℓ)
651	L-3210-2 Austenitic Piping Postulated Equivalent Single Crack Aspect Ratios (a/ℓ)
652	L-3420-1 Successive Inspection Schedule
657	N-1000-1 Selected Personnel Qualification Requirements From Referenced Sources
662	O-2200-1 Flaw Characterization — Circumferential Flaws
663	O-2200-2 Flaw Characterization — Axial Flaws
672	Q-4100-1 Extent of Volumetric Acceptance Examination
673	Q-4300-1 Preservice and Inservice Examination Volume
675	R-1320-1 PRA Technical Adequacy Requirements
678	R-2500-1 Examination Category R‐A, Risk‐Informed Piping Examinations
680	R-2500-1 Socket Welds
687	R-S1-1 Overview Risk‐Informed Selection Process
690	R-S1-1 Definition of Failure Probability Estimates for Pipe Segments
692	R-S1-2 Structural Element Selection Matrix
693	R-S1-2 Estimates for Piping Leak Frequencies
700	R-S2-1 Risk Evaluation Process
701	R-S2-1 Degradation Mechanisms
702	R-S2-2 Degradation Mechanism Category
703	R-S2-3 Consequence Categories for Initiating Event Impact of Group R-S2-4 Quantitative Indices for Consequence Categories
704	R-S2-5 Guidelines for Assigning Consequence Categories to Failures Resulting in System or Train Loss R-S2-6 Consequence Categories for Combination Impact Group
705	R-S2-7 Consequence Categories for Pipe Failures Resulting in Increased Potential for an Unisolated Loca Outside of Containment R-S2-8 Risk Matrix
711	RRA-1 Report of Contracted Repair/Replacement Activity
713	T-1 Guide for Completing Form RRA-1
719	U-S1-4.2.1-1 Through-Wall Flaw Geometry
720	U-S1-4.2.2-1 Separation Requirements for Adjacent Thinned Areas
721	U-S1-4.2.2-2 Illustration of Nonplanar Flaw Due to Wall Thinning
722	U-S1-4.2.2-3 Allowable Wall Thickness and Length of Locally Thinned Area
723	U-S1-4.2.2-4 Illustration of Through-wall Nonplanar Flaw Due to Wall Thinning
724	U-S1-4.2.2-5 Illustration of Adjusted Wall Thickness and Equivalent Hole Diameters
729	U-S2-2.1 Overall Methodology
730	U-S2-2.2-1 Illustration of Nonplanar Part-Through-Wall Degradation Due to Wall Thinning
731	U-S2-2.2-2 Illustration of Nonplanar Through-Wall Degradation Due to Wall Thinning
732	U-S2-4.3-1 Allowable Wall Thickness and Length of Locally Thinned Area
735	W-3200-1 Stress Limits for Design and Service Loadings
742	Y-2100-1 Reference Fatigue Crack Growth Rate Curves for Austenitic Stainless Steels in Air Environments
743	Y-2100-1M Reference Fatigue Crack Growth Rate Curves for Austenitic Stainless Steels in Air Environments
747	Y-2223-1 Reference Fatigue Crack Growth Rate Curves for Wrought Austenitic Stainless Steels in Pressurized Water Reactor Environments
748	Y-2223-1M Reference Fatigue Crack Growth Rate Curves for Wrought Austenitic Stainless Steels in Pressurized Water Reactor Environments
750	Y-2310-1 BWR SCC Growth Rate Parameters (U.S. Customary Units) Y-2310-1M BWR SCC Growth Rate Parameters (SI Units)
751	Y-2310-1 Reference IGSCC Curves for Austenitic Stainless Steels in BWR Environments Y-2310-1M Reference IGSCC Curves for Austenitic Stainless Steels in BWR Environments
753	Y-2330-1 Reference IGSCC Curves for Austenitic Stainless Steel Piping in Non-Reactor-Coolant Environments
754	Y-2330-2 Reference TGSCC Curves for Austenitic Stainless Steel Piping in Non-Reactor-Coolant Environments
757	Y-2412-1 Reference IASCC Growth Curves for Austenitic Stainless Steels in Light-Water Reactor Environments at 70 ksi and 140 ksi Irradiated Yield Stress and 550°F
758	Y-2412-1M Reference IASCC Growth Curves for Austenitic Stainless Steels in Light-Water Reactor Environments at 483 MPa and 965 MPa Irradiated Yield Stress and 288°�C
759	Y-2412-2 Effect of Dose, Material Category, and Pre-Irradiation Strengthening Parameter, r, on Irradiated Yield Stress, σiys, of Austenitic Stainless Steels at 550°F (288°�C)
760	Y-2412-1 Environmental Applicability Limits Y-2420-1 Parameters CI, ν, and n for Calculating IASCC Crack Growth Rate at 550°F (288°�C)
763	Y-3100-1 Reference Fatigue Crack Growth Rate Curves for Carbon and Low Alloy Ferritic Steels in Air Environments (Subsurface Flaws)
764	Y-3100-1M Reference Fatigue Crack Growth Rate Curves for Carbon and Low Alloy Ferritic Steels in Air Environments (Subsurface Flaws)
767	Y-3210-1 Reference Fatigue Crack Growth Rate Curves for Carbon and Low Alloy Ferritic Steels in Water Environments
768	Y-3210-1M Reference Fatigue Crack Growth Rate Curves for Carbon and Low Alloy Ferritic Steels in Water Environments
771	Y-4210-1 Reference Fatigue Crack Growth Rate Curves for Alloy 600 at 608°F
772	Y-4210-1M Reference Fatigue Crack Growth Rate Curves for Alloy 600 at 320°�C
774	Y-4311-1 Reference SCC Growth Curves for Alloys 600, 182, and 132 in BWR Environment
775	Y-4311-1M Reference SCC Growth Curves for Alloys 600, 182, and 132 in BWR Environment
776	Y-4321-1 Constants for SCC Model for PWR Environment (U.S. Customary Units) Y-4321-1M Constants for SCC Model for PWR Environment (SI Units) Y-4321-2 Dissolved Hydrogen Factor, fH2/fH2ref, for Alloy 600 SCC Model for PWR Environment (U.S. Customary Units)
777	Y-4321-2M Dissolved Hydrogen Factor, fH2/fH2ref, for Alloy 600 SCC Model for PWR Environment (SI Units) Y-4321-3 Dissolved Hydrogen Factor, fH2/fH2ref, for Alloy 82, 182, and 132 SCC Model for PWR Environment (U.S. Customary Units) Y-4321-3M Dissolved Hydrogen Factor, fH2/fH2ref, for Alloy 82, 182, and 132 SCC Model for PWR Environment (SI Units)
778	Y-4321-1 Reference SCC Growth Curves for Alloys 600, 82, 182, and 132 in PWR Environment at 617°F and 30 cc/kg H2
779	Y-4321-1M Reference SCC Growth Curves for Alloys 600, 82, 182, and 132 in PWR Environment at 325°�C and 30 cc/kg H2 Y-4322-1 Factors of Improvement (FOI) for Alloy 690, 52, 152, and Variants

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Standard Title	ASME BPVC.XI.1-2023 Section XI, Rules for Inservice Inspection of Nuclear Reactor Facility Components, Division 1, Rules for Inspection and Testing of Components of Light-Water-Cooled Plants
Published Code	ASME
Publication Date	2023
Pages Count	787

ASME BPVC XI 1 2023

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