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ASME BPVC XI 2017

ASME BPVC XI 2017

$377.00

ASME BPVC – XI -2017 BPVC Section XI-Rules for Inservice Inspection of Nuclear Power Plant Components

Published By Publication Date Number of Pages
ASME 2017 731
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PDF Catalog

PDF Pages PDF Title
77 IWA-1600-1 Referenced Standards and Specifications
81 IWA-2211-1 Visual Examinations
84 IWA-2322-1 Nearā€Distance Acuity Test Distances and Character Heights
86 IWA-2324-1 Practical Examination NDE Techniques
90 IWA-3310-1 Surface Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface
92 IWA-3320-1 Subsurface Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface
93 IWA-3320-2 Successive Examination Surface Proximity Rule for Class 1 and Class 2 Vessels
94 IWA-3330-1 Multiple Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface
95 IWA-3340-1 Nonplanar Elliptical Subsurface Flaws
96 IWA-3350-1 Parallel Planar Flaws
97 IWA-3360-1 Laminar Flaws
98 IWA-3380-1 Nonaligned Coplanar Flaws in Plane Normal to Pressure-Retaining Surface
99 IWA-3390-1 Multiple Aligned Planar Flaws (1/2 in. = 13 mm)
100 IWA-3400-1 Linear Surface Flaws
112 IWA-4461.1-1 Minimum Preheat Temperature, Ā°F (Ā°C)
120 IWA-4662.1-1 Depth Limitations for Underwater Welding Qualification
121 IWA-4663.1-1 Carbon Equivalency Calculation
IWA-4662.1-2 Procedure and Performance Qualification ā€” Position Limitations
128 IWA-4712.2-1 Examples of Extension and Recess of Tube and Plug
146 IWB-2411-1 Inspection Program
151 IWB-2500-1 (B-A) Examination Category B-A, Pressure-Retaining Welds in Reactor Vessel
152 IWB-2500-1 (B-B) Examination Category B-B, Pressure-Retaining Welds in Vessels Other Than Reactor Vessels
154 IWB-2500-1 (B-D) Examination Category B-D, Full Penetration Welded Nozzles in Vessels
155 IWB-2500-1 (B-F) Examination Category B-F, Pressure-Retaining Dissimilar Metal Welds in Vessel Nozzles
156 IWB-2500-1 (B-G-1) Examination Category B-G-1, Pressure-Retaining Bolting, Greater Than 2 in. (50 mm) in Diameter
159 IWB-2500-1 (B-G-2) Examination Category B-G-2, Pressure-Retaining Bolting, 2 in. (50 mm) and Less in Diameter
160 IWB-2500-1 (B-J) Examination Category B-J, Pressure-Retaining Welds in Piping
162 IWB-2500-1 (B-K) Examination Category B-K, Welded Attachments for Vessels, Piping, Pumps, and Valves
164 IWB-2500-1 (B-L-2, B-M-2) Examination Categories B-L-2, Pump Casings; B-M-2, Valve Bodies
165 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
166 IWB-2500-1 (B-O) Examination Category B-O, Pressure-Retaining Welds in Control Rod Drive and Instrument Nozzle Housings
167 IWB-2500-1 (B-P) Examination Category B-P, All Pressure-Retaining Components
168 IWB-2500-1 (B-Q) Examination Category B-Q, Steam Generator Tubing
169 IWB-2500-1 Vessel Shell Circumferential Weld Joints
170 IWB-2500-2 Vessel Shell Longitudinal Weld Joints
171 IWB-2500-3 Spherical Vessel Head Circumferential and Meridional Weld Joints
172 IWB-2500-4 Shellā€toā€Flange Weld Joint
173 IWB-2500-5 Headā€toā€Flange Weld Joint
174 IWB-2500-6 Typical Tubesheetā€toā€Head Weld Joints
175 IWB-2500-7(a) Nozzle in Shell or Head
176 IWB-2500-7(b) Nozzle in Shell or Head
177 IWB-2500-7(c) Nozzle in Shell or Head
178 IWB-2500-7(d) Nozzle in Shell or Head
179 IWB-2500-8 Similar and Dissimilar Metal Welds in Components, Nozzles, and Piping
182 IWB-2500-9 Pipe Branch Connection
183 IWB-2500-10 Pipe Branch Connection
184 IWB-2500-11 Pipe Branch Connection
185 IWB-2500-12(a) Stud and Threads in Flange Stud Hole
186 IWB-2500-12(b) Pressure-Retaining Bolts
187 IWB-2500-12(c) Pressure-Retaining Bolts
188 IWB-2500-13 Welded Attachment
189 IWB-2500-14 Welded Attachment
190 IWB-2500-15 Welded Attachment
191 IWB-2500-18 Control Rod Drive and Instrument Nozzle Housing Welds
192 IWB-2500-20 Extent of Weld Examination
196 IWB-3410-1 Acceptance Standards
197 IWB-3510-1 Allowable Planar Flaws
IWB-3510-2 Allowable Laminar Flaws
198 IWB-3510-3 Allowable Linear Flaws
199 IWB-3512-1 Allowable Planar Flaws
IWB-3512-2 Component Thickness Versus Flaw Location
200 IWB-3514-1 Allowable Planar Flaws
201 IWB-3514-2 Allowable Linear Flaws
202 IWB-3514-3 Allowable Laminar Flaws
IWB-3514-4 Allowable Linear Flaws
203 IWB-3515-1 Allowable Planar Flaws
205 IWB-3519.2-1 Allowable Planar Flaws
206 IWB-3519.2-2 Allowable Planar Flaws
208 IWB-3610-1 Characterization and Proximity Rules for Analytical Evaluation of Clad Components
210 IWB-3662-1 Definition of Circumferential Orientation for Flaw Characterization
211 IWB-3663-1 Reactor Vessel Head Penetration Nozzle Acceptance Criteria
213 IWB-5230-1 Test Pressure
216 IWC-2411-1 Inspection Program
220 IWC-2500-1 (C-A) Examination Category C-A, Pressure-Retaining Welds in Pressure Vessels
221 IWC-2500-1 (C-B) Examination Category C-B, Pressure-Retaining Nozzle Welds in Pressure Vessels
222 IWC-2500-1 (C-C) Examination Category C-C, Welded Attachments for Pressure Vessels , Piping, Pumps, and Valves
223 IWC-2500-1 (C-D) Examination Category C-D, Pressure-Retaining Bolting Greater Than 2 in. (50 mm) in Diameter
224 IWC-2500-1 (C-F-1) Examination Category C-F-1, Pressure-Retaining Welds in Austenitic Stainless Steel or High Alloy Piping
225 IWC-2500-1 (C-F-2) Examination Category C-F-2, Pressure-Retaining Welds in Carbon or Low Alloy Steel Piping
227 IWC-2500-1 (C-H) Examination Category C-H, All Pressure-Retaining Components
228 IWC-2500-1 Vessel Circumferential Welds
229 IWC-2500-2 Typical Tubesheetā€toā€Shell Circumferential Welds
230 IWC-2500-3 Nozzleā€toā€Vessel Welds
231 IWC-2500-4 Nozzleā€toā€Vessel Welds
235 IWC-2500-5 Welded Attachments
236 IWC-2500-6(a) Pressure-Retaining Bolting
237 IWC-2500-6(b) Pressure-Retaining Bolting
238 IWC-2500-6(c) Pressure-Retaining Bolting
239 IWC-2500-7 Welds in Piping
241 IWC-2500-9 Branch Connection Welds
242 IWC-2500-10 Pipe Branch Connection
243 IWC-2500-11 Pipe Branch Connection
244 IWC-2500-12 Pipe Branch Connection
245 IWC-2500-13 Pipe Branch Connection
248 IWC-3410-1 Acceptance Standards
249 IWC-3510-1 Allowable Planar Flaws
IWC-3510-2 Allowable Laminar Flaws
250 IWC-3510-3 Allowable Linear Flaws
IWC-3511-1 Allowable Planar Flaws
251 IWC-3511-2 Allowable Linear Flaws
IWC-3513-1 Allowable Planar Flaws
253 IWC-3514-1 Allowable Planar Flaws
259 IWD-2411-1 Inspection Program
262 IWD-2500-1 (D-A) Examination Category D-A, Welded Attachments for Pressure Vessels , Piping, Pumps, and Valves
263 IWD-2500-1 (D-B) Examination Category D-B, All Pressure-Retaining 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
278 IWE-2500-1 (E-C) Examination Category E-C, Containment Surfaces Requiring Augmented Examination
279 IWE-2500-1 (E-G) Examination Category E-G, Pressure-Retaining Bolting
280 IWE-2500-1 Examination Areas for Moisture Barriers
287 IWF-1300-1 Illustrations of Typical Support Examination Boundaries
289 IWF-2410-1 Inspection Program
292 IWF-2500-1 (F-A) Examination Category F-A, Supports
299 IWL-2500-1 (L-A) Examination Category Lā€A, Concrete
300 IWL-2500-1 (L-B) Examination Category Lā€B, Unbound Post-Tensioning System
302 IWL-2521-1 Number of Tendons for Examination
303 IWL-2521-2 Augmented Examination Requirements Following Postā€Tensioning System Repair/Replacement Activities
305 IWL-2525-1 Corrosion Protection Medium Analysis
312 I-2000-1 Required Supplements
315 I-3200-1 Ferritic, Austenitic, or Dissimilar Metal Weld
318 I-S4 Alternative Calibration Block
322 NIS-2 Ownerā€™s Repair/Replacement Certification Record
323 II-1 Guide for Completing Form NIS-2
324 OAR-1 Ownerā€™s Activity Report
326 II-2 Guide for Completing Form OAR-1
328 III-2120-1 Maximum Nominal Search Unit Sizes
332 III-3430-1 Allowable Notch Configurations
333 III-3430-1 Surface Notch Depths for Ultrasonic Calibration
334 III-3430-2 Recommended Design for Basic Calibration Blocks
341 IV-3110-1
345 2.3.2-1 Instrument Linearity
349 3.2.2-1 Detection Performance Criteria for Open (Nonblind) Procedure Demonstration
350 3.3-1 Eddy Current Blind Test Detection and False Call Criteria
351 IV Supplement A Data Acquisition Procedure Specification
352 IV Supplement B Data Analysis Procedure Specification
362 VII-4110-1 Required Experience for Initial Certification for Ultrasonic Examination (Hours)
363 VII-4220-1 Initial Training Hours (Classroom/Laboratory)
371 VIII-3110-1 Component Qualification Supplements
377 VIII-S1-1A System Configuration
378 VIII-S1-1B Test Configuration
379 VIII-S1-2A Frequency Response Curve
380 VIII-S2-1 Performance Demonstration Detection Test Acceptance Criteria
381 VIII-S4-1 Personnel Detection Test Acceptance Criteria
383 VIII-S5-1 Misorientation Angle
384 VIII-S5-2 Flaw Distribution Zones
386 VIII-S6-1 Detection and Sizing Test Flaws and Locations
387 VIII-S6-1 Definition of Statistical Parameters
389 VIII-S8-1 Maximum Notch Dimensions
392 VIII-S10-1 Personnel Performance Demonstration Detection Test Acceptance Criteria
398 X-1 Standard Units for Use in Equations
406 A-3100-1 Elliptical Flaw Models
407 A-3210-1 Definition of x Distance Through the Wall for the Surface Flaws
408 A-3210-2 Definition of x Distance for the Subsurface Flaw Stress Definition
409 A-3210-3 Linearization of Stress Versus Distance Through the Wall
417 A-3530-1 Cylindrical Flaw Geometry
A-3531-1 360-deg Inside Surface Flaw Geometry
418 A-3531-1 Coefficients for 360-deg Circumferential Inside Surface Flaw Equation
422 A-3532-1 Coefficients for Semielliptical Circumferential Inside Surface Flaw Equations, Deepest Point (Point 1)
423 A-3532-2 Coefficients for Semielliptical Circumferential Inside Surface Flaw Equations, Surface Point (Point 2)
424 A-3550-1 Axial Inside Surface Flaw in a Cylinder
A-3551-1 Axial Inside Surface Flaw With a/ā„“ = 0 in a Cylinder
435 A-3560-1 Axial Outside Surface Flaw in a Cylinder
436 A-3561-1 Axial Outside Surface Flaw With a/ā„“ = 0 in a Cylinder
447 A-3610-1 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.0
449 A-3610-2 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.1
451 A-3610-3 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.2
453 A-3610-4 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.3
455 A-3610-5 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.4
457 A-3610-6 Coefficients G0 Through G4 for Subsurface Crack With Flaw Aspect Ratio, a/ā„“ = 0.5
458 A-3620-1 Coefficients G0 Through G4 for Flat Plate Surface Crack With Flaw Aspect Ratio, a/ā„“ = 0.0
459 A-3620-2 Coefficients G0 Through G4 for Flat Plate Surface Crack at Point 1
461 A-3620-3 Coefficients G0 Through G4 for Flat Plate Surface Crack at Point 2
463 A-3630-1 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
464 A-3630-2 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
465 A-3630-3 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
466 A-3630-4 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
467 A-3630-5 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
468 A-3630-6 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
469 A-3630-7 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
470 A-3630-8 Coefficients Gi for Circumferential Semielliptical Inside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
471 A-3650-1 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
472 A-3650-2 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
473 A-3650-3 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
474 A-3650-4 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
475 A-3650-5 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
476 A-3650-6 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
477 A-3650-7 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
478 A-3650-8 Coefficients Gi for Axial Semielliptical Inside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
479 A-3660-1 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 1), Deepest Point (Point 1)
480 A-3660-2 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 1), Surface Point (Point 2)
481 A-3660-3 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 5), Deepest Point (Point 1)
482 A-3660-4 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 5), Surface Point (Point 2)
483 A-3660-5 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 10), Deepest Point (Point 1)
484 A-3660-6 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 10), Surface Point (Point 2)
485 A-3660-7 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 20), Deepest Point (Point 1)
486 A-3660-8 Coefficients Gi for Axial Semielliptical Outside Surface Flaw (Ri/t = 20), Surface Point (Point 2)
491 A-4200-1 Lower Bound KIa and KIc Test Data for SA-533 Grade B Class 1, SA-508 Class 2, and SA-508 Class 3 Steels
492 A-4200-1M Lower Bound KIa and KIc Test Data for SA-533 Grade B Class 1, SA-508 Class 2, and SA-508 Class 3 Steels
493 A-4300-1 Reference Fatigue Crack Growth Curves for Carbon and Low Alloy Ferritic Steels Exposed to Air Environments (Subsurface Flaws)
494 A-4300-1M Reference Fatigue Crack Growth Curves for Carbon and Low Alloy Ferritic Steels Exposed to Air Environments (Subsurface Flaws)
495 A-4300-2 Reference Fatigue Crack Growth Curves for Carbon and Low Alloy Ferritic Steels Exposed to Water Environments
496 A-4300-2M Reference Fatigue Crack Growth Curves for Carbon and Low Alloy Ferritic Steels Exposed to Water Environments
500 A-5400-1 Determination of Critical Flaw Sizes for Postulated Conditions
506 C-1100-1 Weld Materialā€“Base Material Interface Definition for Flaw Location
510 C-2200-1 Flaw Characterization ā€” Circumferential Flaws
511 C-2200-2 Flaw Characterization ā€” Axial Flaws
512 C-2400-1 Flaw Characterization ā€” Skewed Axial Flaws Projected into Axial Plane
513 C-2400-2 Flaw Characterization ā€” Skewed Circumferential Flaws Projected into Circumferential Plane
514 C-2400-3 Flaw Characterization ā€” Compound Skewed Flaw Projected into Circumferential and Axial Planes
520 C-4210-1 Flowchart for Selecting Analysis Method for Austenitic Piping
521 C-4220-1 Flowchart for Selecting Analysis Method for Ferritic Piping
522 C-4310-1 Circumferential Surface Flaw Geometry
C-4310-2 Axial Surface Flaw Geometry
523 C-4310-3 Circumferential Subsurface Flaw Geometry
C-4310-4 Axial Subsurface Flaw Geometry
528 C-5200-1 Flowchart for Allowable Flaw Size Determination for Fully Plastic Fracture Using Limit Load Method
529 C-5310-1 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Circumferential Flaws ā€” Service Level A Conditions
530 C-5310-2 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Circumferential Flaws ā€” Service Level B Conditions
531 C-5310-3 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Circumferential Flaws ā€” Service Level C Conditions
532 C-5310-4 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Circumferential Flaws ā€” Service Level D Conditions
533 C-5310-5 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Circumferential Flaws ā€” Pure Membrane Stress
534 C-5410-1 Allowable Endā€ofā€Evaluationā€Period Flaw Depthā€toā€Thickness Ratio for Axial Flaws
541 C-6200-1 Flowchart for Allowable Flaw Size Determination for Ductile Fracture Using EPFM Method
542 C-6330-1 Load Multipliers for Ferritic Steel Base Metals and Weldments
C-6330-2 Load Multipliers for Ferritic Steel Base Metals and Weldments for Userā€Specified Data
544 C-6330-2M Load Multipliers for Ferritic Steel Base Metals and Weldments for Userā€Specified Data
546 C-6430-1 Coefficients Cn of Z0 Equation for Z-Factor Based on Fracture Toughness, JIc
550 C-7200-1 Flowchart for Allowable Flaw Size Determination for Nonductile Fracture Using LEFM Methods
557 C-8321-1 Material Properties for Ferritic Steel Base Metals and Weldments ā€” Circumferential Flaws
558 C-8321-2 Temperature for Onset of Upper-Shelf Behavior for Axial and Circumferential Flaws in Ferritic Steel Base Metals and Weldments
C-8322-1 Material Properties for Ferritic Steel Base Metals and Weldments ā€” Axial Flaws
559 C-8410-1 Reference Fatigue Crack Growth Curves for Austenitic Stainless Steels in Air Environments
560 C-8410-1M Reference Fatigue Crack Growth Curves for Austenitic Stainless Steels in Air Environments
561 C-8410-2 Reference Fatigue Crack Growth Rate Curves for Alloy 600 at 608Ā°F
562 C-8410-2M Reference Fatigue Crack Growth Rate Curves for Alloy 600 at 320Ā°C
563 C-8510-1 Constants for SCC Model for PWR Environment (U.S. Customary Units)
C-8510-1M Constants for SCC Model for PWR Environment (SI Units)
564 C-8510-1 SCC Curves for Alloy 600, 82, 182, and 132 in PWR Environment at 617Ā°F
565 C-8510-1M SCC Curves for Alloy 600, 82, 182, and 132 in PWR Environment at 325Ā°C
566 C-8510-2 SCC Curves for Alloy 600, 182, and 132 in BWR Environment
567 C-8510-2M SCC Curves for Alloy 600, 182, and 132 in BWR Environment
C-8520-1 BWR SCC Growth Rate Parameters (U.S. Customary Units)
568 C-8520-1 IGSCC Reference Curves for Austenitic Stainless Steel in BWR Environments
C-8520-1M BWR SCC Growth Rate Parameters (SI Units)
569 C-8520-1M IGSCC Reference Curves for Austenitic Stainless Steel in BWR Environments
572 E-1 Maximum Allowable Pressure as a Function of Tc āˆ’ RTNDT for Isothermal Pressure Transients Ī”Tc/Ī”t < 10Ā°F/hr (5.5Ā°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
584 G-2210-1 Reference Critical Stress Intensity Factor for Material
585 G-2210-1M Reference Critical Stress Intensity Factor for Material
586 G-2214-1 Mt vs. Wall Thickness for Postulated Inside Surface Reference Flaws
587 G-2214-1M Mt vs. Wall Thickness for Postulated Inside Surface Reference Flaws
588 G-2214-2 Through-Wall Temperature Difference vs. Wall Depth for Heatup or Cooldown
589 G-2223-1 Postulated Nozzle Corner Defect
601 H-4300-1 Failure Assessment Diagram for Ferritic Piping
H-4200-1 Specified Structural Factors for Circumferential Flaws
H-4200-2 Specified Structural Factors for Axial Flaws
602 H-4300-2 Failure Assessment Diagram for Austenitic Piping
603 H-4400-1 Circumferential Flaw Geometry
H-4400-2 Axial Flaw Geometry
605 J-1000-1 Decision Tree
621 K-4310-1 Comparison of the Slopes of the Applied Jā€Integral Curve and the Jā€R Curve
K-4320-1 Failure Assessment Diagram for the Oneā€Quarter Wall Thickness Flaw
622 K-4320-1 Coordinates of the Failure Assessment Diagram Curves of Figure K-4320-1
623 K-4330-1 Illustration of the Jā€Integral/Tearing Modulus Procedure
629 L-3110-1 Flowchart for Flaw Tolerance Analytical Evaluation
630 L-3210-1 Ferritic Piping Postulated Equivalent Single Crack Aspect Ratios (a/ā„“)
L-3210-2 Austenitic Piping Postulated Equivalent Single Crack Aspect Ratios (a/ā„“)
632 L-3420-1 Successive Inspection Schedule
637 N-1000-1 Selected Personnel Qualification Requirements from Referenced Sources
641 O-2200-1 Flaw Characterization ā€” Circumferential Flaws
642 O-2200-2 Flaw Characterization ā€” Axial Flaws
651 Q-4100-1 Examination Volume
652 Q-4300-1 Preservice and Inservice Examination Volume
654 R-1320-1 PRA Technical Adequacy Requirements
657 R-2500-1 Examination Category Rā€A, Riskā€Informed Piping Examinations
659 R-2500-1 Socket Welds
666 R-S1-1 Overview Riskā€Informed Selection Process
669 R-S1-1 Definition of Failure Probability Estimates for Pipe Segments
671 R-S1-2 Structural Element Selection Matrix
672 R-S1-2 Estimates for Piping Leak Frequencies
680 R-S2-1 Risk Evaluation Process
681 R-S2-1 Degradation Mechanisms
682 R-S2-2 Degradation Mechanism Category
R-S2-3 Consequence Categories for Initiating Event Impact of Group
684 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
685 R-S2-7 Consequence Categories for Pipe Failures Resulting in Increased Potential for an Unisolated Loca Outside of Containment
R-S2-8 Risk Matrix
691 RRA-1 Report of Contracted Repair/Replacement Activity
693 T-1 Guide for Completing Form RRA-1
700 U-S1-4.2.1-1 Through-Wall Flaw Geometry
701 U-S1-4.2.2-1 Separation Requirements for Adjacent Thinned Areas
702 U-S1-4.2.2-2 Illustration of Nonplanar Flaw Due to Wall Thinning
703 U-S1-4.2.2-3 Allowable Wall Thickness and Length of Locally Thinned Area
704 U-S1-4.2.2-4 Illustration of Through-wall Nonplanar Flaw Due to Wall Thinning
705 U-S1-4.2.2-5 Illustration of Adjusted Wall Thickness and Equivalent Hole Diameters
706 U-S1-4.2.3-1 Flaw Growth Rate for IGSCC in Austenitic Piping
707 U-S1-4.2.3-2 Flaw Growth Rate for TGSCC in Austenitic Piping
713 U-S2-2.1 Overall Methodology
714 U-S2-2.2-1 Illustration of Nonplanar Part-Through-Wall Degradation Due to Wall Thinning
715 U-S2-2.2-2 Illustration of Nonplanar Through-Wall Degradation Due to Wall Thinning
716 U-S2-4.3-1 Allowable Wall Thickness and Length of Locally Thinned Area
719 W-3200-1 Stress Limits for Design and Service Loadings

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