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ASME BPVC III 1 A 2019

ASME BPVC III 1 A 2019

$377.00

ASME BPVC – III – 1 – A -2019 BPVC Section III, Rules for Construction of Nuclear Facility Components, Division 1, Appendices

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ASME 2019 693
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This Subsection contains appendices, both mandatory and nonmandatory for Section III, Division 1 (Subsection NCA through NG) and Division 2, including a listing of design and design analysis methods and information, and Data Report Forms. These appendices are referenced by and are an integral part of Subsection NCA through NG and Division 2. 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. Intended for manufacturers, users, constructors, designers and others concerned with the design, fabrication, assembly, erection, examination, inspection and testing of pressure vessels, plus all potential governing entities.

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PDF Pages PDF Title
55 1 Section III Appendices Reference Table
68 I-9.0 Tabulated Values of Sa, ksi, From Figures I-9.1 Through I-9.4
69 I-9.0M Tabulated Values of Sa, MPa, From Figures I-9.1M Through I-9.4M
70 I-9.1 Design Fatigue Curves for Carbon, Low Alloy, and High Tensile Steels for Metal Temperatures Not Exceeding 700°F
71 I-9.1M Design Fatigue Curves for Carbon, Low Alloy, and High Tensile Steels for Metal Temperatures Not Exceeding 370°C
72 I-9.1 Tabulated Values of Sa, ksi (MPa), From Figures I-9.1 and I-9.1M
73 I-9.2 Design Fatigue Curves for Austenitic Steels, Nickel–Chromium–Iron Alloy, Nickel–Iron–Chromium Alloy, and Nickel–Copper Alloy for Temperatures Not Exceeding 800°F
74 I-9.2M Design Fatigue Curves for Austenitic Steels, Nickel–Chromium–Iron Alloy, Nickel–Iron–Chromium Alloy, and Nickel–Copper Alloy for Temperatures Not Exceeding 425°C
75 I-9.2 Tabulated Values of Sa, ksi (MPa), From Figures I-9.2 and I-9.2M
76 I-9.3 Design Fatigue Curves for Wrought 70 Copper–30 Nickel Alloy for Temperatures Not Exceeding 800°F
77 I-9.3M Design Fatigue Curves for Wrought 70 Copper–30 Nickel Alloy for Temperatures Not Exceeding 425°C
78 I-9.4 Design Fatigue Curves for High Strength Steel Bolting for Temperatures Not Exceeding 700°F
79 I-9.4M Design Fatigue Curves for High Strength Steel Bolting for Temperatures Not Exceeding 370°C
80 I-9.5 Design Fatigue Curves for Nickel–Chromium–Molybdenum–Iron Alloys (UNS N06003, N06007, N06455, and N10276) for Temperatures Not Exceeding 800°F
81 I-9.5M Design Fatigue Curves for Nickel–Chromium–Molybdenum–Iron Alloys (UNS N06003, N06007, N06455, and N10276) for Temperatures Not Exceeding 425°C
82 I-9.5 Tabulated Values of Sa, ksi (MPa), From Figures I-9.5 and I-9.5M
83 I-9.6 Design Fatigue Curves for Grade 9 Titanium for Temperatures Not Exceeding 600°F
84 I-9.6M Design Fatigue Curves for Grade 9 Titanium for Temperatures Not Exceeding 315°C
85 I-9.6 Tabulated Values of Sa, ksi (MPa), for Grade 9 Titanium From Figures I-9.6 and I-9.6M
86 I-9.7 Design Fatigue Curves for Nickel–Chromium Alloy 718 (SB-637 UNS N07718) for Design of 2 in. (50 mm) and Smaller Diameter Bolting for Temperatures Not Exceeding 800°F (427°C)
87 I-9.7 Tabulated Values of Sa, ksi (MPa), From Figure I-9.7
88 I-9.8 Design Fatigue Curves, ksi, for Ductile Cast Iron
89 I-9.8M Design Fatigue Curves, MPa, for Ductile Cast Iron
90 I-9.8 Tabulated Values of Sa, ksi, From Figure I-9.8
91 I-9.8M Tabulated Values of Sa, MPa, From Figure I-9.8M
95 II-1430-1 Construction for II-1430
96 II-1520(c)-1 Construction of the Testing Parameters Ratio Diagram
97 II-1520(c)-2 Construction of the Testing Parameters Ratio Diagram for Accelerated Tests
100 II-2310-1 Schematic of Test Assembly
101 II-2330-1 Displacement D and Force F Recorded During Loading and Unloading of Test Specimen, With Linear Displacement
102 II-2440-1 Stress Intensification Increase Factor
107 N-1 Certificate Holder’s Data Report for Nuclear Vessels
109 N-1A Certificate Holder’s Data Report for Nuclear Vessels
110 N-2 Certificate Holder’s Data Report for Identical Nuclear Parts
112 N-2A Certificate Holder’s Data Report for Identical Appurtenances
114 N-3 Owner’s Data Report for Nuclear Power Plant Components
116 N-5 Certificate Holder’s Data Report for Installation or Shop Assembly or Nuclear Power Plant Components, Supports, and Appurtenances
118 N-6 Certificate Holders’ Data Report for Storage Tanks
120 NPP-1 Certificate Holder’s Data Report for Fabricated Nuclear Piping Subassemblies
122 NPV-1 Certificate Holder’s Data Report for Nuclear Pumps or Valves
124 NV-1 Certificate Holder’s Data Report for Pressure or Vacuum Relief Valves
126 NCS-1 Certificate Holder’s Data Report for Core Support Structures
127 NF-1 Certificate Holder’s Data Report for Supports
129 NM-1 Certificate Holder’s Data Report for Tubular Products and Fittings Welded With Filler Metal
130 NS-1 Certificate Holder’s Certificate of Conformance for Welded Supports
132 C-1 Certificate Holder’s Data Report for Concrete Reactor Vessels and Containments
134 G-1 GC Certificate Holder’s Data Report for Graphite Core Assemblies
136 G-2 GC or Graphite Quality System Certificate Holder’s Data Report for Machined Graphite Core Components
138 G-4 GC or Graphite Quality System Certificate Holder’s or GQSC Holder’s Data Report for Installation of Graphite Core Components
140 V-1000 Guide for Preparation of Data Report Forms
145 VI-1132-1 Maximum Size of Nonrelevant Indications and Acceptable Rounded Indications — Examples Only
146 VI-1134-1 Aligned Rounded Indications
147 VI-1134-2 Groups of Aligned Rounded Indications
148 VI-1136-1 Charts for t Equal to 1/8 in. to 1/4 in. (3 mm to 6 mm), Inclusive
VI-1136-2 Charts for t Over 1/4 in. to 3/8 in. (6 mm to 10 mm), Inclusive
149 VI-1136-3 Charts for t Over 3/8 in. to 3/4 in. (10 mm to 19 mm), Inclusive
VI-1136-4 Charts for t Over 3/4 in. to 2 in. (19 mm to 50 mm), Inclusive
150 VI-1136-5 Charts for t Over 2 in. to 4 in. (50 mm to 100 mm), Inclusive
151 VI-1136-6 Charts for t Over 4 in. (100 mm)
156 XI-3120-1 Types of Flanges
160 XI-3221.1-1 Gasket Materials and Contact Facings Gasket Factors, m, for Operating Conditions and Minimum Design Seating Stress, y
162 XI-3221.1-2 Effective Gasket Width
163 XI-3230-1 Moment Arms for Flange Loads
164 XI-3240-1 Flange Factors in Formula Form
166 XI-3240-1 Values of T, U, Y, and Z (Terms Involving K)
167 XI-3240-2 Values of F (Integral Flange Factors)
168 XI-3240-3 Values of V (Integral Flange Factors)
169 XI-3240-4 Values of FL (Loose Hub Flange Factors)
XI-3240-5 Values of VL (Loose Hub Flange Factors)
170 XI-3240-6 Values of f (Hub Stress Correction Factor)
176 XIII-1300-1 Example of Acceptable Local Primary Membrane Stress Due to Pressure
178 XIII-1300-2 Examples of Reversing and Nonreversing Dynamic Loads
181 XIII-2100-1 Stress Classification Combinations
184 XIII-2600-1 Classification of Stresses in Vessels for Some Typical Cases
185 XIII-2600-2 Classification of Stresses in Piping, Typical Cases
187 XIII-3110-1 Primary Stress Intensity Limits
189 XIII-3200-1 Collapse Load Factors
191 XIII-3450-1 Values of m, n, and Tmax for Various Classes of Permitted Materials
196 XIII-3770-1 Local Thin Area in a Cylindrical Shell
200 XIII-I-1 Cross-Reference List for NB-3200 and Appendix XIII
202 XVIII-1110-1 Superheat Correction Factor, Ksh
204 XVIII-1110-1M Superheat Correction Factor, Ksh
206 XVIII-1110-1 Constant C for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv)
XVIII-1110(a)-1 Molecular Weights of Gases and Vapors
207 XVIII-1110-1M Constant C for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv)
XVIII-1140-1 Flow Capacity Curve for Rating Nozzle Type Safety Valves on Saturated Water (Based on 10% Overpressure)
208 XVIII-1140-1M Flow Capacity Curve for Rating Nozzle Type Safety Valves on Saturated Water (Based on 10% Overpressure)
210 XIX-1110-1 Applicable Configurations of Flat Heads
211 XIX-1110-2 Integral Flat Head With Large Central Opening
215 XXII-1200-1 Values of Δ for Junctions at the Large Cylinder for α ≤ 60 deg
225 S2-1 Design Specification — Divisions 1 Through 3 and 5
226 S2-2 Design Report — Divisions 1, 3, and 5 (Excluding Nonmetallic CSS)
227 S2-3 Load Capacity Data Sheet — Divisions 1 and 5
228 S2-4 Fabrication Specification — Division 3
229 S2-5 Overpressure Protection Report — Divisions 1, 2, and 5
S2-6 Construction Specification, Design Drawings, and Design Report — Divisions 2 and 5 (Nonmetallic CSS)
232 S4-1 Design Specification (Div. 1, 2, and 5)
S4-2 Design Report
233 S4-3 Overpressure Protection Report (Div. 1, 2, and 5)
S4-4 Design Specification (Div. 3)
234 S4-5 Fabrication Specification (Div. 3)
S4-6 Construction Specification (Div. 2)
235 XXIV-1000 Standard Units for Use in Equations
239 XXVI-2221-1 Certification Requirements for Polyethylene Compound
242 XXVI-2234-1 Thrust Collars
245 XXVI-2511-1 Minimum Quality Testing Requirements for Polyethylene Compound Lots
246 XXVI-2512-1 Minimum Quality Testing Requirements for Natural Compound Lots
XXVI-2513-1 Testing Requirements for Pigment Concentrate Compound Lots
247 XXVI-2520(a)-1 Minimum Quality Testing Requirements for Polyethylene Source Material
XXVI-2520(a)-2 Minimum Quality Testing Requirements for Polyethylene Material — Pipe
256 XXVI-3131-1(a) Long-Term Allowable Stress, S, for Polyethylene, psi
XXVI-3131-1M(a) Long-Term Allowable Stress, S, for Polyethylene, MPa
257 XXVI-3132-1 Nomenclature for Mitered Elbows
XXVI-3131-1(b) Elevated Temperature Allowable Stress, S, for Polyethylene, psi (MPa)
XXVI-3132-1 Geometric Shape Ratings (GSR)
258 XXVI-3133-1 SA, Allowable Secondary Stress Limit, psi
XXVI-3133-1M SA, Allowable Secondary Stress Limit, MPa
XXVI-3210-1 Maximum Allowable Ring Deflection, Ωmax
259 XXVI-3210-2 Soil Support Factor, FS
XXVI-3210-3 Modulus of Elasticity of Polyethylene Pipe, Epipe, psi
XXVI-3210-3M Modulus of Elasticity of Polyethylene Pipe, Epipe, MPa
260 XXVI-3220-1 Allowable Sidewall Compression Stress, Scomp (psi)
XXVI-3220-1M Allowable Sidewall Compression Stress, Scomp (MPa)
XXVI-3221.2-1 Ovality Correction Factor, fo
XXVI-3223-1 Design and Service Level Longitudinal Stress Factor, K′
XXVI-3223-2 Short Duration (5 min) Allowable Longitudinal Tensile Stress
261 XXVI-3311-1 Stress Indices, Flexibility, and Stress Intensification Factors for PE Piping Components
264 XXVI-4110-1 Thermal Fusion Butt Joint
265 XXVI-4110-2 Electrofusion Joint
267 XXVI-4230-1 Tapered Transition Joint
270 XXVI-4334-1 Butt Fusing Procedure Specification Variables
271 XXVI-4334-2 Electrofusion Procedure Specification Variables
273 XXVI-4520-1 Transition Flange Arrangement
XXVI-4520-2 Transition Flange Arrangement (HDPE to HDPE)
274 XXVI-4521.1-1 Torque Increments for Flanged Joints
277 XXVI-5220-1 Fusion Pipe Joint Examination Volume
XXVI-5220-2 Electrofusion Joint Examination Volume
278 XXVI-5321-1 Polyethylene Pipe Butt Fusion Joint O.D. Bead (Cross-Section View)
279 XXVI-5330-1 Laminar Flaws
287 XXVI-I-100-1 PE Standards and Specifications Referenced in Text
289 XXVI-IIA-421 Requirements of an Ultrasonic Examination Procedure for HDPE Techniques
290 XXVI-IIB-421.1-1 Requirements of a Microwave Examination Procedure for HDPE Techniques
293 NM(PE)-2 Data Report for Nonmetallic Batch-Produced Products Requiring Fusing
294 XXVI-A-110-1 Fusion Standards and Specifications Referenced in Text
297 XXVI-B-1 Unacceptable Fusion Bead Configurations
298 XXVI-C-100-1 Seismic Strain Limits
307 A-2120-1
312 A-3120-1
318 A-5120-1
319 A-5212-1
A-5213-1
A-5221-1
320 A-5222-1
321 A-5240-1
A-5240-1
323 A-6230-1
324 A-6230-2
325 A-6230-3
A-6230-4
A-6230-5
331 A-8120-1
332 A-8131-1
333 A-8132.1-1
A-8132.2-1
A-8132.3-1
334 A-8132.4-1
A-8142-1
335 A-8142-2
336 A-8142-3
338 A-8142-4
339 A-8142-5
340 A-8142-6
341 A-8143.2-1
342 A-8153-1
344 A-9210(d)-1 Interaction Curve for Beams Subject to Bending and Shear or to Bending, Shear, and Direct Loads
345 A-9210(d)-1 Interaction Equations for Common Beam Shapes
346 A-9521(b)-1
347 A-9523.1-1 Sign Convention and Nomenclature
A-9531-1 Bending and Shear Stresses
349 A-9532(c)(3)-1 Interaction Exponent
350 A-9533(b)-1 Interaction Curve for Bending and Tension
A-9541-1 Trapezoidal Stress–Strain Relationship
351 A-9541-2 Ultimate and Yield Trapezoidal Intercept Stresses
A-9541-3 Linearized Ultimate and Yield Bending Stresses for Rectangular Section
352 A-9541-4 Proportional Limit as a Function of Yield Stress
354 A-9542-1 Linearized Bending Stress Versus Allowable Stress for SA-672 A50 Material at 600°F (316°C)
358 B-2123-1 Time‐Dependent Load Information
375 D-1210-1 Suggested Minimum Preheat Temperatures
380 F-1200-1 Level D Service Limits — Components and Supports Elastic System Analysis Acceptance Criteria
391 G-2210-1
392 G-2210-1M
393 G-2214-1
394 G-2214-1M
395 G-2214-2
405 L-3191-1 Bolt Hole Flexibility Factor
406 L-3191-2 Flange Dimensions and Forces
407 L-3212-1 Trial Flange Thickness and Area of Bolting for Various Groups of Assemblies and Flange Categories
408 L-3230-1 Group 1 Flange Assembly (Identical Flange Pairs)
409 L-3230-2 Group 2 Flange Assembly
L-3230-3 Group 3 Flange Assembly
410 L-3240-1 Summary of Applicable Equations for Different Groups of Assemblies and Different Categories of Flanges
418 N-1211(a)-1 Horizontal Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
419 N-1211(a)-1 Horizontal Design Response Spectra Relative Values of Spectrum Amplification Factors for Control Points
420 N-1211(b)-1 Vertical Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
421 N-1211(b)-1 Vertical Design Response Spectra Relative Values of Spectrum Amplification Factors for Control Points
422 N-1211(a)-1M Horizontal Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
423 N-1211(b)-1M Vertical Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
430 N-1225.1.1(b)-1 Minimum Support Load Factor
433 N-1226-1 Suggested Frequencies, Hz, for Calculation of Ground and Floor Response Spectra
434 N-1226-1 Response Spectrum Peak Broadening and Peak Amplitude
435 N-1226-2 Use of Floor Spectra When Several Equipment Frequencies Are Within the Widened Spectral Peak
439 N-1228.3-1 Coefficients for a Component of Shear for a Unit Displacement of a Nondatum Support
441 N-1230-1 Damping Values Percent of Critical Damping
446 N-1311-1 Added Mass for Lateral Acceleration of Structures in a Fluid Reservoir
448 N-1321-1 Vortices Shed From a Circular Cylinder
N-1311-2 Guidelines for Damping of Flow‐Induced Vibration
449 N-1321-2 Some Typical Cross Sections of Bluff Bodies That Can Experience Vortex Shedding
450 N-1323-1 Synchronization of the Vortex Shedding Frequency and the Tube Natural Frequency for a Single, Flexibly‐Mounted Circular Cylinder
452 N-1324.2(a)-1 Semiempirical Correlations for Predicting Resonant Vortex‐Induced Vibration Amplitude
453 N-1331-1 Response of a Tube Bank to Cross Flow (Ref. [115])
454 N-1331-2 Tube Vibration Patterns at Fluid-Elastic Instability for a Four‐Tube Row (Ref. [118])
455 N-1331-3 Tube Arrangements
457 N-1331-4 Stability Diagram
460 N-1343-1 Random Excitation Coefficient for Arrays in Cross Flow (Ref. [100])
464 N-1430-1 Vibration Forms for Circular Cylindrical Shells
467 N-1451-1 Comparison of Fritz and Kiss Solution With Exact Solution
470 N-1470-1 Imaginary Part of Z as a Function of b/a for Selected Value of S (Ref. [146])
472 N-1722.2-1 Definition of Notation
474 N-1723.1-1
N-1723.1-2
475 N-1723.1-3
N-1723.1-4
483 O-1120(e)-1 Application Point of Venting Force F
O-1120(e)-2 Limiting Safety Valve Arrangements and Dimensions
491 Q-1130-1 Typical Hub and Clamp
492 Q-1130-2 Typical Clamp Lug Configurations
494 Q-1180-1 Allowable Design Stress for Clamp Connections
496 R-1200-1 Determination of Permissible Lowest Service Metal Temperature
499 S-1600-1 Typical Centrifugal Pump Shaft Failure Locations
501 S-2300-1 Steps in the Design of a Pump Shaft
505 T-1213-1 Illustrations of Angular Dimensions — Pipe Legs, Valves, Supports, Bends
506 T-1213-2 Illustrations of Linear Dimensions
507 T-1222-1 Branch/Run Size Combinations
510 U-1600-1 Summary of Requirements
511 U-1500-1 Typical for Type A, C, E, F, and/or Some J (NB‐3400) Pumps
512 U-1500-2 Typical for Type B and D Pumps (NC-3400 and ND‐3400)
513 U-1500-3 Typical for Type G and H Pumps (NC-3400 and ND‐3400)
514 U-1500-4 Typical for Type K Pumps (NC-3400 and ND‐3400)
515 U-1500-5 Typical for Type L Pumps (NC-3400 and ND‐3400)
516 U-1500-6 Reciprocating Plunger Pump (NC-3400 and ND‐3400)
518 U-1500-7 Typical for Type A and C Pumps (NC-3400 and ND‐3400)
519 U-1610-1 Materials for Pump Internal Items for Class 1, 2, and 3 Pumps
529 W-2120-1 Environmental Conditions Required for SCC
575 Y-2300-1 Nomenclature Illustration
578 Y-3300-1 Nomenclature Illustration
581 Y-4200-1 Weld Type Illustration
Y-4300-1 Nomenclature Illustration
584 Y-5300-1 Nomenclature Illustration
595 BB-3300-1 Bellows Configuration and Wrap Angle, α
602 CC-3120-1 Correlation of Service Loadings and Stress Limit Coefficients
607 DD-1100-1 Polyethylene Material Organization Responsibilities per NCA-3970
609 EE-1120-1 Typical Engineering Tensile Stress–Strain Curve (Ref. [1])
610 EE-1120-2 Comparison of Engineering and True Stress–Strain Curves (Ref. [1])
611 EE-1150-1 Examples of Triaxiality Factor Calculations
614 EE-1230-1 Quasi-Static Tensile Test Results for 304/304L Base and Welded Material at 300°F (149°C)
615 EE-1230-2 Quasi-Static Tensile Test Results for 316/316L Base and Welded Material at 300°F (149°C)
EE-1230-3 Comparison of Base and Welded 304/304L Material to Identical Impact Tests at −20°F (−29°C)
616 EE-1230-4 Comparison of Base and Welded 316/316L Material to Identical Impact Tests at −20°F (−29°C)
EE-1250-1 Factors for Specified Strain Rates
619 FF-1122-1 Permitted Material Specifications and Products
622 GG-1100-1 Minimum Thickness for Pipe Bends
628 HH-1120-1 Summary of Requirements
629 HH-1120-1 Gate Valve
630 HH-1120-2 Globe Valve
632 HH-1120-3 Swing Check Valve
633 HH-1120-4 Globe Check Valve
634 HH-1120-5 Diaphragm Valve
635 HH-1120-6 Plug Valve
636 HH-1120-7 Globe Check Valve
637 HH-1120-8 Butterfly Valve
638 HH-1120-9 Control Valve
640 HH-1120-10 Ball Valve
641 HH-1120-11 Nozzle Check Valve
642 HH-1312-1 Allowable Stress Values, S, for Material for Internal and External Items (U.S. Customary Units)
645 HH-1312-1M Allowable Stress Values, S, for Material for Internal and External Items (SI Units)
648 JJ-1100-1 Sample Thermal Stratification Profiles
650 JJ-1330-1 Decomposition of Stratification Temperature Distribution Range
656 KK-2123.2-1 Time-Dependent Load Information
659 KK-2400-1 Additional Metallic Component Requirements
668 KK-8200-1 Additional Core Support Structures Requirements
672 KK-10120-1 Typical Graphite Core Component Design Sequence
676 KK-10300-1 Additional Graphite Core Component Requirements
680 LL-2112.3-1 Applicability of Limits for Division 3 Components

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