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ASME BPVC VIII 3 2023

ASME BPVC VIII 3 2023

$377.00

ASME BPVC.VIII.3-2023 Section VIII, Rules for Construction of Pressure Vessels, Division 3, Alternative Rules for Construction of High Pressure Vessels

Published By Publication Date Number of Pages
ASME 2023 383
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This Division of Section VIII provides requirements applicable to the design, fabrication, inspection, testing, and certification of pressure vessels operating at either internal or external pressures generally above 10,000 psi. Such vessels may be fired or unfired. This pressure may be obtained from an external source, a process reaction, by the application of heat from a direct or indirect source, or any combination thereof. Division 3 rules cover vessels intended for a specific service and installed in a fixed location or relocated from work site to work site between pressurizations. The operation and maintenance control is retained during the useful life of the vessel by the user who prepares or causes to be prepared the design specifications. Division 3 does not establish maximum pressure limits for either Section VIII, Divisions 1 or 2, nor minimum pressure limits for this Division. Rules pertaining to the use of the UV3 ASME Product Certification Marks are also included. 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.

PDF Catalog

PDF Pages PDF Title
52 KG-141 Referenced Standards in This Division and Year of Acceptable Edition
53 KG-150 Standard Units for Use in Equations
59 KG-311.15 Typical Certification of Compliance of the User’s Design Specification
61 KG-324.1 Typical Certification of Compliance of the Manufacturer’s Design Report
73 KM-212 Charpy Impact Test Temperature Reduction Below Minimum Design Metal Temperature
75 KM-212 Examples of Acceptable Impact Test Specimens
77 KM-234.2(a) Minimum Required Charpy V‐Notch Impact Values for Pressure‐Retaining Component Materials
KM-234.2(b) Minimum Required Charpy V‐Notch Impact Values for Bolting Materials
81 KM-270.1 Machine Sharp Edge-Notch Specimen
KM-270.1M Machine Sharp Edge-Notch Specimen
82 KM-270.2 Reinforcing Plate for Specimen Head
83 KM-270.2M Reinforcing Plate for Specimen Head
84 KM-270.3 Standard Test Sections
KM-270.3M Standard Test Sections
87 KM-400-1 Carbon and Low Alloy Steels
93 KM-400-1M Carbon and Low Alloy Steels (Metric)
100 KM-400-2 High Alloy Steels
103 KM-400-2M High Alloy Steels (Metric)
106 KM-400-3 Nickel and Nickel Alloys
107 KM-400-3M Nickel and Nickel Alloys (Metric)
108 KM-400-4 Aluminum Alloys
KM-400-4M Aluminum Alloys (Metric)
111 KM-620 Tabular Values for Coefficients
KM-630 Cyclic Stress–Strain Curve Data
113 KM-630M Cyclic Stress–Strain Curve Data
114 KM-630.1 Coefficients for the Welded Joint Fatigue Curves
KM-630.1M Coefficients for the Welded Joint Fatigue Curves
124 KD-230.1 Loads and Load Cases to Be Considered in Design
125 KD-230.2 Load Descriptions
KD-230.3 Combination for Analysis Exemption of Hydrostatic Test Criterion
126 KD-230.4 Load Combinations and Load Factors for an Elastic–Plastic Analysis
143 KD-320.1 Design Fatigue Curves Sa = f(Nf) for Nonwelded Machined Parts Made of Forged Carbon or Low Alloy Steels for Temperatures Not Exceeding 700°F
144 KD-320.1 Tabulated Values of Sa, ksi, From Figures Indicated
146 KD-320.1M Design Fatigue Curves Sa = f(Nf) for Nonwelded Machined Parts Made of Forged Carbon or Low Alloy Steels for Temperatures Not Exceeding 371°C
147 KD-320.1M Tabulated Values of Sa, MPa, From Figures Indicated
149 KD-320.2 Design Fatigue Curve Sa = f(Nf) for Nonwelded Parts Made of Carbon or Low Alloy Steels for Temperatures Not Exceeding 700°F
150 KD-320.2M Design Fatigue Curve Sa = f(Nf) for Nonwelded Parts Made of Carbon or Low Alloy Steels for Temperatures Not Exceeding 371°C
151 KD-320.3 Fatigue Curve for Nonwelded Series 3XX High Alloy Steel, Nickel–Chromium–Iron Alloy, Nickel–Iron–Chromium Alloy, and Nickel–Copper Alloy for Temperatures Not Exceeding 800°F
152 KD-320.3M Fatigue Curve for Nonwelded Series 3XX High Alloy Steel, Nickel–Chromium–Iron Alloy, Nickel–Iron–Chromium Alloy, and Nickel–Copper Alloy for Temperatures Not Exceeding 427°C
153 KD-320.4 Design Fatigue Curve Sa = f(Nf) for Nonwelded Machined Parts Made of 17‐4PH/15‐5PH Stainless Steel Bar or Forgings, for Temperatures Not Exceeding 550°F
154 KD-320.4M Design Fatigue Curve Sa = f(Nf) for Nonwelded Machined Parts Made of 17‐4PH/15‐5PH Stainless Steel Bar or Forgings, for Temperatures Not Exceeding 290°C
155 KD-320.5 Design Fatigue Curve for High‐Strength Steel Bolting for Temperatures Not Exceeding 700°F
156 KD-320.5M Design Fatigue Curve for High‐Strength Steel Bolting for Temperatures Not Exceeding 371°C
157 KD-320.6(a) Roughness Factor Kr Versus Average Surface Roughness Ra (µin.) AA
158 KD-320.6M(a) Roughness Factor Kr Versus Average Surface Roughness Ra (µm) AA
159 KD-320.6(b) Roughness Factor Kr Versus Maximum Surface Roughness Rmax (µin.)
160 KD-320.6M(b) Roughness Factor Kr Versus Maximum Surface Roughness Rmax (µm)
KD-320.7 Tabulated Values of Sa Alternating Stress Intensity From Figures KD-320.7 and KD-320.7M
161 KD-320.7 Design Fatigue Curve for Nonwelded 6061-T6 and 6061-T651 Aluminum for Temperatures Not Exceeding 225°F
162 KD-320.7M Design Fatigue Curve for Nonwelded 6061-T6 and 6061-T651 Aluminum for Temperatures Not Exceeding 107°C
KD-322.1 Fatigue Penalty Parameters
163 KD-372.1 Burr Grinding of Weld Toe
166 KD-430 Room-Temperature Crack Growth Rate Factors (U.S. Customary Units)
KD-430M Room-Temperature Crack Growth Rate Factors (SI Units)
175 KD-700 Some Illustrative Weld Attachment Details
179 KD-812 Diameters and Layer Numbers for Concentric Shrink‐Fit Layered Cylinder
181 KD-830.1 Acceptable Layered Shell Types
182 KD-830.2 Some Acceptable Solid‐to‐Layered Attachments
183 KD-830.3 Some Acceptable Flat Heads With Hubs Joining Layered Shell Sections
184 KD-830.4 Some Acceptable Flanges for Layered Shells
185 KD-830.5 Some Acceptable Welded Joints of Layered‐to‐Layered and Layered‐to‐Solid Sections
186 KD-830.6 Some Acceptable Nozzle Attachments in Layered Shell Sections
187 KD-850 Some Acceptable Supports for Layered Vessels
189 KD-900 Wire‐Wound Vessel and Frame Construction
190 KD-911 Nomenclature for Wire‐Wound Cylinders
192 KD-932 Derivation of Design Fatigue Curve From Wire Fatigue Curve
199 KD-1112 Typical Pressure Parts With Butt‐Welded Hubs
200 KD-1121 Joints Between Formed Heads and Shells
201 KD-1122 Nozzle Necks Attached to Piping of Lesser Wall Thickness
202 KD-1130 Some Acceptable Welded Nozzle Attachments
203 KD-1131 An Acceptable Full‐Penetration Welded Nozzle Attachment Not Readily Radiographable
208 KD-1260.1 Construction of Testing Parameter Ratio Diagram
209 KD-1260.2 Construction of Testing Parameter Ratio Diagram for Accelerated Tests
215 KF-131 Example of the Maximum and Minimum Inside Diameters in a Cylindrical Shell
220 KF-234 Maximum Allowable Offset in Welded Joints
225 KF-402.1 Requirements for Postweld Heat Treatment of Pressure Parts and Attachments (U.S. Customary Units)
226 KF-402.1M Requirements for Postweld Heat Treatment of Pressure Parts and Attachments (SI Units)
231 KF-630 Postweld Heat Treatment Requirements for Quenched and Tempered Materials in Table KM-400-1 (U.S. Customary Units)
232 KF-630M Postweld Heat Treatment Requirements for Quenched and Tempered Materials in Table KM-400-1M (SI Units)
236 KF-822(a) Solid‐to‐Layered and Layered‐to‐Layered Test Plates
237 KF-822(b) Test Specimens for Weld Procedure Qualification
238 KF-825.4 Indications of Layer Wash
239 KF-826 Gap Area Between Layers
246 KF-1211 Permitted Weld Reinforcement
257 KE-101 Thickness, Image Quality Indicator Designations, Essential Holes, and Wire Diameters (U.S. Customary Units)
258 KE-101M Thickness, Image Quality Indicator Designations, Essential Holes, and Wire Diameters (SI Units)
262 KE-242.1 Axial Propagation of Sound in Tube Wall
267 KE-301-1 Flaw Acceptance Criteria for 1 in. (25 mm) to 12 in. (300 mm) Thick Weld
268 KE-301-2 Flaw Acceptance Criteria for 16 in. (400 mm) Thick Weld
269 KE-301-1 Flaw Classification of Single Indication
270 KE-301-2 Surface Flaw Acceptance Criteria
272 KE-301-3 Subsurface Flaw Acceptance Criteria
274 KE-301-4 Multiple Planar Flaws Oriented in Plane Normal to Pressure-Retaining Surface
275 KE-301-5 Parallel Planar Flaws
276 KE-301-6 Nonaligned Coplanar Flaws in Plane Normal to Pressure-Retaining Surface (Illustrative Flaw Configurations)
277 KE-301-7 Multiple Aligned Planar Flaws
279 KE-321 Illustration of Welded Joint Locations Typical of Categories A, B, C, and D
280 KE-332 Radiographic Acceptance Standards for Rounded Indications (Examples Only)
291 KS-100 Official New Certification Mark to Denote the American Society of Mechanical Engineers’ Standard
293 KS-132 Form of Stamping
309 6-1 Aligned Rounded Indications
310 6-2 Groups of Aligned Rounded Indications
311 6-3.1 Charts for t 1/8 in. (3 mm) to 1/4 in. (6 mm), Inclusive
312 6-3.2 Charts for t Over 1/4 in. (6 mm) to 3/8 in. (10 mm), Inclusive
313 6-3.3 Charts for t Over 3/8 in. (10 mm) to 3/4 in. (19 mm), Inclusive
314 6-3.4 Charts for t Over 3/4 in. (19 mm) to 2 in. (50 mm), Inclusive
315 6-3.5 Charts for t Over 2 in. (50 mm) to 4 in. (100 mm), Inclusive
316 6-3.6 Charts for t Over 4 in. (100 mm)
319 9-100.1 Load Case Combinations and Allowable Stresses for an Elastic Analysis
320 9-200.1 Stress Categories and Limits of Equivalent Stress
325 K-1 Manufacturer’s Data Report for High Pressure Vessels
327 K-2 Manufacturer’s Partial Data Report for High Pressure Vessels
329 K-3 Manufacturer’s Data Report Supplementary Sheet
330 A-100.1 Instructions for the Preparation of Manufacturer’s Data Reports
332 CRPV-1A Manufacturer’s Data Report for Composite Reinforced Pressure Vessels
334 A-100.2 Instructions for the Preparation of Manufacturer’s Data Reports Form CRPV-1A
336 CRPV-2A Recommended Form for Qualifying the Laminate Design and the Laminate Procedure Specification Used in Manufacturing Composite Reinforced Pressure Vessels
340 D-200 Typical Crack Types
341 D-300 Idealizations of a Crack Propagating From a Cross‐Bore Corner
343 D-401.1 Coefficients G0 Through G3 for Surface Crack at Deepest Point
344 D-401.2 Coefficients G0 Through G3 for Surface Crack at Free Surface
346 D-403.1 Magnification Factors for Circumferential Crack
D-403.2 Polynomial Representation of Stress Distribution
347 D-403.3 Method of Correcting KI at Discontinuities Between Regions
348 D-500 Crack Growth Rate Factors
349 E-110 Thick Wall Blind End Proportions Not Requiring Detailed Analysis
350 E-120 Thin Wall Blind End Proportions Not Requiring Detailed Analysis
352 E-210.1 Typical Threaded End Closure
353 E-210.2 Thread Loading Distribution
E-210.3 Detail of First Thread
354 E-222.1 Continuous Thread Example
355 E-222.2 Interrupted Thread Example
357 G-100.1 Clamp Nomenclature
358 G-100.2 Typical Clamp Lug Configurations
359 G-100.3 Typical Hub Design With the Bolts Contained Within the Body of the Clamp
363 G-300 Typical Self‐Energizing Gaskets Used in This Division, Showing Diameter at Location of Gasket Load Reaction G
364 G-300.1 Values of f
365 G-900 Allowable Design Stress for Clamp Connections
367 H-101 Straight Drill Connections for Thick-Walled Cylinders
368 H-120.1 Chart for Determining Value of F
370 H-142 Nozzle Nomenclature and Dimensions
375 J-110-1 Geometries of Square Blocks and Cylinders With Cross‐Bores
J-110-2 Tangential Stress Concentration Factors for Openings in Cylinders
376 J-110-3 Tangential Stress Concentration Factors for Openings in Square Cross‐Section Blocks
J-110-2 Tangential Stress Concentration Factors for Openings in Cylinders (Tabulated Values From Figure J-110-2)
J-110-3 Tangential Stress Concentration Factors for Openings in Square Cross‐Section Blocks (Tabulated Values From Figure J-110-3)
378 K-200-1 Stress History
K-200-2 Toughness Temperature Curve

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