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ASME BPVC III 1 A 2017

ASME BPVC III 1 A 2017

$377.00

ASME BPVC – III – 1 – A -2017 BPVC Section III, Rules for Construction of Nuclear Facility Components, Division 1, Appendices

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ASME 2017
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PDF Pages PDF Title
5 Table of Contents
49 1 Section III Appendices Reference Table
66 I-9.0 Tabulated Values of Sa, ksi, From Figures I-9.1 Through I-9.4
67 I-9.0M Tabulated Values of Sa, MPa, From Figures I-9.1M Through I-9.4M
68 I-9.1 Design Fatigue Curves for Carbon, Low Alloy, and High Tensile Steels for Metal Temperatures Not Exceeding 700°F
69 I-9.1M Design Fatigue Curves for Carbon, Low Alloy, and High Tensile Steels for Metal Temperatures Not Exceeding 370°C
70 I-9.1 Tabulated Values of Sa, ksi (MPa), From Figures I-9.1 and I-9.1M
71 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
72 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
73 I-9.2 Tabulated Values of Sa, ksi (MPa), From Figures I-9.2 and I-9.2M
74 I-9.3 Design Fatigue Curves for Wrought 70 Copper–30 Nickel Alloy for Temperatures Not Exceeding 800°F
75 I-9.3M Design Fatigue Curves for Wrought 70 Copper–30 Nickel Alloy for Temperatures Not Exceeding 425°C
76 I-9.4 Design Fatigue Curves for High Strength Steel Bolting for Temperatures Not Exceeding 700°F
77 I-9.4M Design Fatigue Curves for High Strength Steel Bolting for Temperatures Not Exceeding 370°C
78 I-9.5 Design Fatigue Curves for Nickel–Chromium–Molybdenum–Iron Alloys (UNS N06003, N06007, N06455, and N10276) for Temperatures Not Exceeding 800°F
79 I-9.5M Design Fatigue Curves for Nickel–Chromium–Molybdenum–Iron Alloys (UNS N06003, N06007, N06455, and N10276) for Temperatures Not Exceeding 425°C
80 I-9.5 Tabulated Values of Sa, ksi (MPa), From Figures I-9.5 and I-9.5M
81 I-9.6 Design Fatigue Curves for Grade 9 Titanium for Temperatures Not Exceeding 600°F
82 I-9.6M Design Fatigue Curves for Grade 9 Titanium for Temperatures Not Exceeding 315°C
83 I-9.6 Tabulated Values of Sa, ksi (MPa), for Grade 9 Titanium From Figures I-9.6 and I-9.6M
84 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)
85 I-9.7 Tabulated Values of Sa, ksi (MPa), From Figure I-9.7
86 I-9.8 Design Fatigue Curves, ksi, for Ductile Cast Iron
87 I-9.8M Design Fatigue Curves, MPa, for Ductile Cast Iron
88 I-9.8 Tabulated Values of Sa, ksi, From Figure I-9.8
89 I-9.8M Tabulated Values of Sa, MPa, From Figure I-9.8M
93 II-1430-1 Construction for II-1430
94 II-1520(c)-1 Construction of the Testing Parameters Ratio Diagram
96 II-1520(c)-2 Construction of the Testing Parameters Ratio Diagram for Accelerated Tests
99 II-2310-1 Schematic of Test Assembly
100 II-2330-1 Displacement D and Force F Recorded During Loading and Unloading of Test Specimen, With Linear Displacement
101 II-2440-1 Stress Intensification Increase Factor
106 N-1 Certificate Holder’s Data Report for Nuclear Vessels*
108 N-1A Certificate Holder’s Data Report for Nuclear Vessels*
109 N-2 Certificate Holder’s Data Report for Identical Nuclear Parts and Appurtenances
111 N-3 Owner’s Data Report for Nuclear Power Plant Components*
113 N-5 Certificate Holder’s Data Report for Installation or Shop Assembly or Nuclear Power Plant Components, Supports, and Appurtenances
115 N-6 Certificate Holders’ Data Report for Storage Tanks*
117 NPP-1 Certificate Holder’s Data Report for Fabricated Nuclear Piping Subassemblies
119 NPV-1 Certificate Holder’s Data Report for Nuclear Pumps or Valves*
121 NV-1 Certificate Holder’s Data Report for Pressure or Vacuum Relief Valves*
123 NCS-1 Certificate Holder’s Data Report for Core Support Structures*
124 NF-1 Certificate Holder’s Data Report for Supports*
126 NM-1 Certificate Holder’s Data Report for Tubular Products and Fittings Welded With Filler Metal*
127 NS-1 Certificate Holder’s Certificate of Conformance for Welded Supports*
129 C-1 Certificate Holder’s Data Report for Concrete Reactor Vessels and Containments*
131 G-1 GC Certificate Holder’s Data Report for Graphite Core Assemblies
133 G-2 GC or Graphite Quality System Certificate Holder’s Data Report for Machined Graphite Core Components
135 G-4 GC or Graphite Quality System Certificate Holder’s or GQSC Holder’s Data Report for Installation of Graphite Core Components
137 V-1000 Guide for Preparation of Data Report Forms
143 VI-1132-1 Maximum Size of Nonrelevant Indications and Acceptable Rounded Indications — Examples Only
144 VI-1134-1 Aligned Rounded Indications
145 VI-1134-2 Groups of Aligned Rounded Indications
146 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
147 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
148 VI-1136-5 Charts for t Over 2 in. to 4 in. (50 mm to 100 mm), Inclusive
149 VI-1136-6 Charts for t Over 4 in. (100 mm)
154 XI-3120-1 Types of Flanges
158 XI-3221.1-1 Gasket Materials and Contact Facings
160 XI-3221.1-2 Effective Gasket Width
161 XI-3230-1 Moment Arms for Flange Loads
162 XI-3240-1 Flange Factors in Formula Form
164 XI-3240-1 Values of T, U, Y, and Z (Terms Involving K)
165 XI-3240-2 Values of F (Integral Flange Factors)
166 XI-3240-3 Values of V (Integral Flange Factors)
167 XI-3240-4 Values of FL (Loose Hub Flange Factors)
XI-3240-5 Values of VL (Loose Hub Flange Factors)
168 XI-3240-6 Values of f (Hub Stress Correction Factor)
173 XIII-1300-1 Example of Acceptable Local Primary Membrane Stress Due to Pressure
175 XIII-1300-2 Examples of Reversing and Nonreversing Dynamic Loads
178 XIII-2100-1 Stress Classification Combinations
181 XIII-2600-1 Classification of Stresses in Vessels for Some Typical Cases
182 XIII-2600-2 Classification of Stresses in Piping, Typical Cases
184 XIII-3110-1 Primary Stress Intensity Limits
186 XIII-3200-1 Collapse Load Factors
187 XIII-3450-1 Values of m, n, and Tmax for Various Classes of Permitted Materials
192 XIII-3770-1 Local Thin Area in a Cylindrical Shell
198 XVIII-1110-1 Superheat Correction Factor, Ksh
200 XVIII-1110-1M Superheat Correction Factor, Ksh
202 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
203 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)
204 XVIII-1140-1M Flow Capacity Curve for Rating Nozzle Type Safety Valves on Saturated Water (Based on 10% Overpressure)
206 XIX-1110-1 Applicable Configurations of Flat Heads
207 XIX-1110-2 Integral Flat Head With Large Central Opening
211 XXII-1200-1 Values of Δ for Junctions at the Large Cylinder for α ≤ 60 deg
221 S2-1 Design Specification — Divisions 1 Through 3 and 5
222 S2-2 Design Report — Divisions 1, 3, and 5 (Excluding Nonmetallic CSS)
223 S2-3 Load Capacity Data Sheet — Divisions 1 and 5
224 S2-4 Fabrication Specification — Division 3
225 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)
228 S4-1 Design Specification (Div. 1, 2, and 5)
S4-2 Design Report
229 S4-3 Overpressure Protection Report (Div. 1, 2, and 5)
S4-4 Design Specification (Div. 3)
230 S4-5 Fabrication Specification (Div. 3)
S4-6 Construction Specification (Div. 2)
231 XXIV-1000 Standard Units for Use in Equations
235 XXVI-2221-1 Certification Requirements for Polyethylene Compound
238 XXVI-2234-1 Thrust Collars
241 XXVI-2511-1 Minimum Quality Testing Requirements for Polyethylene Compound Lots
242 XXVI-2512-1 Minimum Quality Testing Requirements for Natural Compound Lots
XXVI-2513-1 Testing Requirements for Pigment Concentrate Compound Lots
243 XXVI-2520(a)-1 Minimum Quality Testing Requirements for Polyethylene Source Material
XXVI-2520(a)-2 Minimum Quality Testing Requirements for Polyethylene Material — Pipe
252 XXVI-3131-1(a) Long-Term Allowable Stress, S, for Polyethylene, psi
XXVI-3131-1M(a) Long-Term Allowable Stress, S, for Polyethylene, MPa
253 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)
254 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
255 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
256 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
257 XXVI-3311-1 Stress Indices, Flexibility, and Stress Intensification Factors for PE Piping Components
260 XXVI-4110-1 Thermal Fusion Butt Joint
261 XXVI-4110-2 Electrofusion Joint
263 XXVI-4230-1 Tapered Transition Joint
268 XXVI-4520-1 Transition Flange Arrangement
269 XXVI-4520-2 Transition Flange Arrangement (HDPE to HDPE)
XXVI-4521.1-1 Torque Increments for Flanged Joints
272 XXVI-5220-1 Fusion Pipe Joint Examination Volume
XXVI-5220-2 Electrofusion Joint Examination Volume
273 XXVI-5321-1 Polyethylene Pipe Butt Fusion Joint O.D. Bead (Cross-Section View)
274 XXVI-5330-1 Laminar Flaws
282 XXVI-I-100-1 PE Standards and Specifications Referenced in Text
284 XXVI-IIA-421 Requirements of an Ultrasonic Examination Procedure for HDPE Techniques
285 XXVI-IIB-421.1-1 Requirements of a Microwave Examination Procedure for HDPE Techniques
288 NM(PE)-2 Data Report for Nonmetallic Batch-Produced Products Requiring Fusing
290 XXVI-A-110-1 Fusion Standards and Specifications Referenced in Text
292 XXVI-B-1 Unacceptable Fusion Bead Configurations
293 XXVI-C-100-1 Seismic Strain Limits
302 A-2120-1
307 A-3120-1
313 A-5120-1
314 A-5212-1
A-5213-1
315 A-5221-1
A-5222-1
316 A-5240-1
318 A-6230-1
319 A-6230-2
320 A-6230-3
A-6230-4
A-6230-5
326 A-8120-1
327 A-8131-1
328 A-8132.1-1
A-8132.2-1
A-8132.3-1
329 A-8132.4-1
A-8142-1
330 A-8142-2
331 A-8142-3
333 A-8142-4
334 A-8142-5
335 A-8142-6
336 A-8143.2-1
337 A-8153-1
339 A-9210(d)-1 Interaction Curve for Beams Subject to Bending and Shear or to Bending, Shear, and Direct Loads
340 A-9210(d)-1 Interaction Equations for Common Beam Shapes
341 A-9521(b)-1
342 A-9523.1-1 Sign Convention and Nomenclature
A-9531-1 Bending and Shear Stresses
344 A-9532(c)(3)-1 Interaction Exponent
345 A-9533(b)-1 Interaction Curve for Bending and Tension
A-9541-1 Trapezoidal Stress–Strain Relationship
346 A-9541-2 Ultimate and Yield Trapezoidal Intercept Stresses
A-9541-3 Linearized Ultimate and Yield Bending Stresses for Rectangular Section
347 A-9541-4 Proportional Limit as a Function of Yield Stress
348 A-9542-1 Linearized Bending Stress Versus Allowable Stress for SA-672 A50 Material at 600°F (316°C)
352 B-2123-1 Time‐Dependent Load Information
369 D-1210-1 Suggested Minimum Preheat Temperatures
374 F-1200-1 Level D Service Limits — Components and Supports Elastic System Analysis Acceptance Criteria
385 G-2210-1
386 G-2210-1M
387 G-2214-1
388 G-2214-1M
389 G-2214-2
400 L-3191-1 Bolt Hole Flexibility Factor
401 L-3191-2 Flange Dimensions and Forces
402 L-3212-1 Trial Flange Thickness and Area of Bolting for Various Groups of Assemblies and Flange Categories
403 L-3230-1 Group 1 Flange Assembly (Identical Flange Pairs)
404 L-3230-2 Group 2 Flange Assembly
L-3230-3 Group 3 Flange Assembly
405 L-3240-1 Summary of Applicable Equations for Different Groups of Assemblies and Different Categories of Flanges
413 N-1211(a)-1 Horizontal Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
414 N-1211(a)-1 Horizontal Design Response Spectra Relative Values of Spectrum Amplification Factors for Control Points
415 N-1211(b)-1 Vertical Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
416 N-1211(b)-1 Vertical Design Response Spectra Relative Values of Spectrum Amplification Factors for Control Points
417 N-1211(a)-1M Horizontal Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
418 N-1211(b)-1M Vertical Design Response Spectra Scaled to 1g Horizontal Ground Acceleration
425 N-1225.1.1(b)-1 Minimum Support Load Factor
428 N-1226-1 Suggested Frequencies, Hz, for Calculation of Ground and Floor Response Spectra
429 N-1226-1 Response Spectrum Peak Broadening and Peak Amplitude
430 N-1226-2 Use of Floor Spectra When Several Equipment Frequencies Are Within the Widened Spectral Peak
434 N-1228.3-1 Coefficients for a Component of Shear for a Unit Displacement of a Nondatum Support
436 N-1230-1 Damping Values
441 N-1311-1 Added Mass for Lateral Acceleration of Structures in a Fluid Reservoir
443 N-1321-1 Vortices Shed From a Circular Cylinder
N-1311-2 Guidelines for Damping of Flow‐Induced Vibration
444 N-1321-2 Some Typical Cross Sections of Bluff Bodies That Can Experience Vortex Shedding
445 N-1323-1 Synchronization of the Vortex Shedding Frequency and the Tube Natural Frequency for a Single, Flexibly‐Mounted Circular Cylinder
447 N-1324.2(a)-1 Semiempirical Correlations for Predicting Resonant Vortex‐Induced Vibration Amplitude
448 N-1331-1 Response of a Tube Bank to Cross Flow (Ref. [115])
449 N-1331-2 Tube Vibration Patterns at Fluid-Elastic Instability for a Four‐Tube Row (Ref. [118])
450 N-1331-3 Tube Arrangements
452 N-1331-4 Stability Diagram
455 N-1343-1 Random Excitation Coefficient for Arrays in Cross Flow (Ref. [100])
459 N-1430-1 Vibration Forms for Circular Cylindrical Shells
462 N-1451-1 Comparison of Fritz and Kiss Solution With Exact Solution
465 N-1470-1 Imaginary Part of Z as a Function of b/a for Selected Value of S (Ref. [146])
467 N-1722.2-1 Definition of Notation
469 N-1723.1-1
N-1723.1-2
470 N-1723.1-3
N-1723.1-4
478 O-1120(e)-1 Application Point of Venting Force F
O-1120(e)-2 Limiting Safety Valve Arrangements and Dimensions
486 Q-1130-1 Typical Hub and Clamp
487 Q-1130-2 Typical Clamp Lug Configurations
489 Q-1180-1 Allowable Design Stress for Clamp Connections
491 R-1200-1 Determination of Permissible Lowest Service Metal Temperature
494 S-1600-1 Typical Centrifugal Pump Shaft Failure Locations
496 S-2300-1 Steps in the Design of a Pump Shaft
500 T-1213-1 Illustrations of Angular Dimensions — Pipe Legs, Valves, Supports, Bends
501 T-1213-2 Illustrations of Linear Dimensions
502 T-1222-1 Branch/Run Size Combinations
505 U-1600-1 Summary of Requirements
506 U-1500-1 Typical for Type A, C, E, F, and/or Some J (NB‐3400) Pumps
507 U-1500-2 Typical for Type B and D Pumps (NC-3400 and ND‐3400)
508 U-1500-3 Typical for Type G and H Pumps (NC-3400 and ND‐3400)
509 U-1500-4 Typical for Type K Pumps (NC-3400 and ND‐3400)
510 U-1500-5 Typical for Type L Pumps (NC-3400 and ND‐3400)
511 U-1500-6 Reciprocating Plunger Pump (NC-3400 and ND‐3400)
513 U-1500-7 Typical for Type A and C Pumps (NC-3400 and ND‐3400)
514 U-1610-1 Materials for Pump Internal Items for Class 1, 2, and 3 Pumps
524 W-2120-1 Environmental Conditions Required for SCC
570 Y-2300-1 Nomenclature Illustration
573 Y-3300-1 Nomenclature Illustration
576 Y-4200-1 Weld Type Illustration
Y-4300-1 Nomenclature Illustration
579 Y-5300-1 Nomenclature Illustration
590 BB-3300-1 Bellows Configuration and Wrap Angle, α
597 CC-3120-1 Correlation of Service Loadings and Stress Limit Coefficients
602 DD-1100-1 Polyethylene Material Organization Responsibilities per NCA-3970
604 EE-1120-1 Typical Engineering Tensile Stress–Strain Curve (Ref. [1])
605 EE-1120-2 Comparison of Engineering and True Stress–Strain Curves (Ref. [1])
606 EE-1150-1 Examples of Triaxiality Factor Calculations
609 EE-1230-1 Quasi-Static Tensile Test Results for 304/304L Base and Welded Material at 300°F (149°C)
610 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)
611 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
614 FF-1122-1 Permitted Material Specifications and Products
617 GG-1100-1 Minimum Thickness for Pipe Bends
619 HH-1120-1 Summary of Requirements
620 HH-1120-1 Gate Valve
621 HH-1120-2 Globe Valve
623 HH-1120-3 Swing Check Valve
624 HH-1120-4 Globe Check Valve
625 HH-1120-5 Diaphragm Valve
626 HH-1120-6 Plug Valve
627 HH-1120-7 Globe Check Valve
628 HH-1120-8 Butterfly Valve
629 HH-1120-9 Control Valve
631 HH-1120-10 Ball Valve
632 HH-1120-11 Nozzle Check Valve
633 HH-1312-1 Allowable Stress Values, S, for Material for Internal and External Items (U.S. Customary Units)
636 HH-1312-1M Allowable Stress Values, S, for Material for Internal and External Items (SI Units)
642 JJ-1100-1 Sample Thermal Stratification Profiles
644 JJ-1330-1 Decomposition of Stratification Temperature Distribution Range

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