ASME BPVC VIII 3 2013

$377.00

ASME BPVC – VIII – 3 -2013 BPVC Section VIII, Division 3: Alternative Rules for Construction of High Pressure Vessels

Published By	Publication Date	Number of Pages
ASME	2013	418

Guaranteed Safe Checkout

Category: ASME

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

Description

PDF Catalog

PDF Pages	PDF Title
1	Cover
4	Copyright
16	List of Sections
18	Foreword
20	Statement of Policy on the Use of the Certification Mark and Code Authorization in Advertising Statement of Policy on the Use of ASME Marking to Identify Manufactured Items
21	Submittal of Technical Inquiries to the Boiler and Pressure Vessel Standards Committees
23	Personnel
38	Summary of Changes
43	List of Changes in Record Number Order
46	Cross-Referencing and Stylistic Changes in the Boiler and Pressure Vessel Code
47	Part KG General Requirements Article KG-1 Scope and Jurisdiction KG-100 Scope KG-110 Geometric Scope of This Division
48	KG-120 Classifications Outside the Scope of This Division KG-130 Field Assembly of Vessels
49	KG-140 Standards Referenced by This Division KG-150 Units of Measurement
50	TABLES KG-141 Referenced Standards in This Division and Year of Acceptable Edition
51	KG-160 Tolerances
52	Article KG-2 Organization of This Division KG-200 Organization
53	Article KG-3 Responsibilities and Duties KG-300 General KG-310 User’s Responsibility
55	KG-320 Manufacturer’s Responsibility
56	FORMS KG-311.15 Typical Certification of Compliance of the User’s Design Specification
57	KG-330 Designer
58	KG-324.1 Typical Certification of Compliance of the Manufacturer’s Design Report
59	Article KG-4 General Rules for Inspection KG-400 General Requirements for Inspection and Examination KG-410 Manufacturer’s Responsibilities
60	KG-420 Certification of Subcontracted Services KG-430 The Inspector KG-440 Inspector’s Duties
62	Article KG-5 Additional General Requirements for Composite Reinforced Pressure Vessels (CRPV) KG-500 General Requirements KG-510 Scope FIGURES KG-510.1 CRPV General Arrangment
63	KG-520 Supplemental General Requirements for CRPV KG-510.2 Laminate Termination KG-510.3 Laminate Step
65	Part KM Material Requirements Article KM-1 General Requirements KM-100 Materials Permitted
69	Article KM-2 Mechanical Property Test Requirements for Metals KM-200 General Requirements KM-210 Procedure for Obtaining Test Specimens and Coupons
70	KM-212 Charpy Impact Test Temperature Reduction Below Minimum Design Metal Temperature
71	KM-212 Examples of Acceptable Impact Test Specimens
72	KM-220 Procedure for Heat Treating Separate Test Specimens KM-230 Mechanical Testing Requirements
74	KM-240 Heat Treatment Certification/Verification Tests for Fabricated Components 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
75	KM-250 Supplementary Toughness Requirements for Pressure-Retaining Component Materials
76	KM-260 Retests KM-270 Notch Tensile Testing Procedure and Acceptance Criterion
77	Article KM-3 Supplementary Requirements for Bolting KM-300 Requirements for All Bolting Materials
78	Article KM-4 Material Design Data KM-400 Contents of Tables of Material Design Data
79	KM-400-1 Carbon and Low Alloy Steels
83	KM-400-1M Carbon and Low Alloy Steels (Metric)
87	KM-400-2 High Alloy Steels
90	KM-400-2M High Alloy Steels (Metric)
93	KM-400-3 Nickel and Nickel Alloys
94	KM-400-3M Nickel and Nickel Alloys (Metric)
95	KM-400-4 Aluminum Alloys KM-400-4M Aluminum Alloys
96	Article KM-5 Requirements for Laminate Materials KM-500 Scope
97	KM-510 Interlaminar Shear Strength KM-506.1 Resin Systems Required Certifications by Resin Supplier KM-506.2 Resin Systems Required Tests by CRPV Manufacturer
99	Part KD Design Requirements Article KD-1 General KD-100 Scope KD-110 Loadings
100	KD-120 Design Basis
101	KD-130 Design Criteria KD-140 Fatigue Evaluation
102	Article KD-2 Basic Design Requirements KD-200 Scope KD-210 Terms Relating to Stress Analysis
104	KD-220 Equations for Cylindrical and Spherical Shells
105	KD-230 Elastic–Plastic Analysis
106	KD-230.1 Loads and Load Cases to Be Considered in Design
107	KD-230.2 Load Descriptions
108	KD-230.3 Combination for Analysis Exemption of Hydrostatic Test Criterion
109	KD-230.4 Load Combinations and Load Factors for an Elastic-Plastic Analysis
110	KD-230.5 Tabular Values for Coefficients
112	KD-240 Linear Elastic Analysis
113	KD-240 Stress Categories and Limits of Stress Intensity
115	KD-250 Principal Stresses in Monobloc Vessels
116	Article KD-3 Fatigue Evaluation KD-300 Scope KD-310 Stress Analysis for Fatigue Evaluation
119	KD-320 Calculated Number of Design Cycles
121	KD-330 Calculated Cumulative Effect Number of Design Cycles KD-340 Fatigue Assessment of Welds — Elastic Analysis and Structural Stress
125	KD-350 Histogram Development and Cycle Counting for Fatigue Analysis
127	KD-360 Cyclic Stress–Strain Curve KD-370 Welded Joint Design Fatigue Curves
129	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
130	KD-320.1 Tabulated Values of Sa , ksi, From Figures Indicated
132	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
133	KD-320.1M Tabulated Values of Sa , MPa, From Figures Indicated
135	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 and UTS Less Than 90 ksi
136	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 and UTS Less Than 620 MPa
137	KD-320.3 Design Fatigue Curve for Nonwelded Austenitic Stainless Steels for Temperatures Not Exceeding 800°F
138	KD-320.3M Design Fatigue Curve for Nonwelded Austenitic Stainless Steels for Temperatures Not Exceeding 427°C
139	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
140	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
141	KD-320.5 Design Fatigue Curve for High-Strength Steel Bolting for Temperatures Not Exceeding 700°F
142	KD-320.5M Design Fatigue Curve for High-Strength Steel Bolting for Temperatures Not Exceeding 371°C
143	KD-320.6(a) Roughness Factor Kr Versus Average Surface Roughness Ra Microinch AA
144	KD-320.6M(a) Roughness Factor Kr Versus Average Surface Roughness Ra Micrometer AA
145	KD-320.6(b) Roughness Factor Kr Versus Maximum Surface Roughness Rmax Microinch
146	KD-320.6M(b) Roughness Factor Kr Versus Maximum Surface Roughness Rmax Micrometer
147	KD-320.7 Tabulated Values of Sa Alternating Stress Intensity from Figures KD-320.7 and KD-320.7M
148	KD-320.7 Design Fatigue Curve for Nonwelded 6061-T6 and 6061-T651 Aluminum for Temperatures Not Exceeding 225°F
149	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
150	KD-360.1 Cyclic Stress-Strain Curve Data
151	KD-360.1M Cyclic Stress-Strain Curve Data
153	KD-370.1 Coefficients for the Welded Joint Fatigue Curves KD-370.1M Coefficients for the Welded Joint Fatigue Curves
154	KD-372.1 Burr Grinding of Weld Toe
155	Article KD-4 Fracture Mechanics Evaluation KD-400 Scope KD-410 Crack Size Criteria
156	KD-420 Stress Intensity Factor KI Calculation KD-430 Calculation of Crack Growth Rates
157	KD-440 Calculated Number of Design Cycles KD-430 Crack Growth Rate Factors (U.S. Customary Units) KD-430M Crack Growth Rate Factors (SI Units)
158	Article KD-5 Design Using Autofrettage KD-500 Scope
159	KD-510 Limits on Autofrettage Pressure KD-520 Calculation of Residual Stresses
161	KD-530 Design Calculations
162	Article KD-6 Design Requirements for Closures, Integral Heads, Threaded Fasteners, and Seals KD-600 Scope KD-620 Threaded Fasteners and Components
163	KD-630 Load-Carrying Shell With Single Threaded End Closures
164	KD-640 Flat Integral Heads KD-650 Quick-Actuating Closures
165	KD-660 Requirements for Closures and Seals
166	Article KD-7 Design Requirements for Attachments, Supports, and External Heating and Cooling Jackets KD-700 General Requirements KD-710 Materials for Attachments KD-720 Welds Attaching Nonpressure Parts to Pressure Parts
167	KD-700 Some Illustrative Weld Attachment Details
168	KD-730 Design of Attachments KD-740 Design of Supports KD-750 Jacketed Vessels
169	Article KD-8 Special Design Requirements for Layered Vessels KD-800 General
170	KD-810 Rules for Shrink-Fit Layered Vessels
171	KD-820 Rules for Concentrically Wrapped and Welded Layered Vessels KD-812 Diameters and Layer Numbers for Concentric Shrink-Fit Layered Cylinder
173	KD-830 Design of Welded Joints KD-840 Openings and Their Reinforcement KD-850 Supports KD-830.1 Acceptable Layered Shell Types
174	KD-830.2 Some Acceptable Solid-to-Layered Attachments
175	KD-830.3 Some Acceptable Flat Heads With Hubs Joining Layered Shell Sections
176	KD-830.4 Some Acceptable Flanges for Layered Shells
177	KD-830.5 Some Acceptable Welded Joints of Layered-to-Layered and Layered-to-Solid Sections
178	KD-830.6 Some Acceptable Nozzle Attachments in Layered Shell Sections
179	KD-850 Some Acceptable Supports for Layered Vessels
180	Article KD-9 Special Design Requirements for Wire-Wound Vessels and Wire-Wound Frames KD-900 Scope KD-910 Stress Analysis
181	KD-900 Wire-Wound Vessel and Frame Construction
182	KD-920 Stress Limits KD-930 Fatigue Evaluation KD-911 Nomenclature for Wire-Wound Cylinders
183	KD-932 Derivation of Design Fatigue Curve From Wire Fatigue Curve
185	Article KD-10 Special Requirements for Vessels in Hydrogen Service KD-1000 Scope
186	KD-1010 Fracture Mechanics Evaluation KD-1020 Fracture Mechanics Properties
187	KD-1030 Fatigue Life Calculation KD-1040 Test Method for KIH Determination
188	KD-1050 Fatigue Crack Growth Rate Tests
190	Article KD-11 Design Requirements for Welded Vessels KD-1100 Scope KD-1110 Types of Joints Permitted KD-1120 Transition Joints Between Sections of Unequal Thickness
191	KD-1130 Nozzle Attachments KD-1112 Typical Pressure Parts With Butt-Welded Hubs
192	KD-1121 Joints Between Formed Heads and Shells
193	KD-1122 Nozzle Necks Attached to Piping of Lesser Wall Thickness
194	KD-1130 Some Acceptable Welded Nozzle Attachments
195	KD-1131 An Acceptable Full-Penetration Welded Nozzle Attachment Not Readily Radiographable
196	Article KD-12 Experimental Design Verification KD-1200 General Requirements KD-1210 Types of Tests KD-1220 Strain Measurement Test Procedure
197	KD-1230 Photoelastic Test Procedure KD-1240 Test Procedures KD-1250 Interpretation of Results
198	KD-1260 Experimental Determination of Allowable Number of Operating Cycles
200	KD-1260.1 Construction of Testing Parameter Ratio Diagram
201	KD-1260.2 Construction of Testing Parameter Ratio Diagram for Accelerated Tests
202	KD-1270 Determination of Fatigue Strength Reduction Factors
203	Article KD-13 Additional Design Requirements for Composite Reinforced Pressure Vessels (CRPV) KD-1300 Scope KD-1310 General
205	Part KF Fabrication Requirements Article KF-1 General Fabrication Requirements KF-100 General KF-110 Material
206	KF-120 Material Forming
207	KF-130 Tolerances for Cylindrical and Spherical Shells and Heads KF-131 Examples of Differences Between Maximum and Minimum Diameters in Cylindrical Shells
208	Article KF-2 Supplemental Welding Fabrication Requirements KF-200 General Requirements for All Welds KF-210 Welding Qualifications and Records
209	KF-220 Weld Joints Permitted and Their Examination
210	KF-230 Requirements During Welding
212	KF-240 Repair of Weld Defects KF-234 Maximum Allowable Offset in Welded Joints
213	Article KF-3 Fabrication Requirements for Materials With Protective Linings KF-300 Scope KF-310 Qualification of Welding Procedures
214	KF-320 Integrally Clad Materials KF-330 Postweld Heat Treatment of Linings KF-340 Examination Requirements KF-350 Inspection and Tests
215	KF-360 Stamping and Reports
216	Article KF-4 Heat Treatment of Weldments KF-400 Heat Treatment of Weldments
217	KF-410 Heating Procedures for Postweld Heat Treatment KF-402.1 Requirements for Postweld Heat Treatment of Pressure Parts and Attachments (U.S. Customary Units)
218	KF-402.1M Requirements for Postweld Heat Treatment of Pressure Parts and Attachments (SI Units)
220	KF-420 Postweld Heat Treatment After Repairs
221	Article KF-5 Additional Fabrication Requirements for Autofrettaged Vessels KF-500 General KF-510 Examination and Repair KF-520 Autofrettage Procedures KF-530 Examination After Autofrettage KF-540 Repair of Defects After Autofrettage KF-550 Stamping and Reports
222	Article KF-6 Additional Fabrication Requirements for Quenched and Tempered Steels KF-600 General KF-610 Welding Requirements
223	KF-620 Temporary Welds Where Not Prohibited KF-630 Postweld Heat Treatment KF-630 Postweld Heat Treatment Requirements for Quenched and Tempered Materials in Table KM-400-1 (U.S. Customary Units)
224	KF-640 Examination and Testing KF-650 Stamping and Reports KF-630M Postweld Heat Treatment Requirements for Quenched and Tempered Materials in Table KM-400-1M (SI Units)
225	Article KF-7 Supplementary Requirements for Materials With Welding Restrictions KF-700 Scope KF-710 Repair of Defects KF-720 Methods of Forming Forged Heads
226	Article KF-8 Specific Fabrication Requirements for Layered Vessels KF-800 Scope KF-810 Rules for Shrink-Fit Vessels KF-820 Rules for Concentrically Wrapped Welded Layered Vessels
228	KF-822(a) Solid-to-Layered and Layered-to-Layered Test Plates
229	KF-822(b) Test Specimens for Weld Procedure Qualification
230	KF-825.4(a) Indications of Layer Wash
231	KF-825.4(b) Angled Radiographic Technique for Detecting Layer Wash
232	KF-826 Gap Area Between Layers
233	KF-830 Heat Treatment of Weldments
234	Article KF-9 Special Fabrication Requirements for Wire-Wound Vessels and Frames KF-900 Scope KF-910 Fabrication Requirements
235	Article KF-10 Additional Fabrication Requirements for Aluminum Alloys
236	Article KF-11 Additional Fabrication Requirements for Welding Age-Hardening Stainless Steels KF-1100 Scope KF-1110 Welding Requirements KF-1120 Base Metal Heat Treatment Condition KF-1130 Temporary Welds Where Not Prohibited KF-1140 Postweld Heat Treatment KF-1150 Production Weld Testing
237	KF-1160 Examination and Testing KF-1170 Repair Welding KF-1180 Postweld Heat Treatment After Weld Repairs
238	Article KF-12 Additional Fabrication Requirements for Composite Reinforced Pressure Vessels (CRPV) KF-1200 Scope KF-1210 Material Identification Records for CRPV Laminates KF-1212 Permitted Weld Reinforcement
241	KF-1216 Acoustic Emission Evaluation Criteria
243	Part KR Pressure Relief Devices Article KR-1 General Requirements KR-100 Protection Against Overpressure KR-110 Definitions
244	KR-120 Types of Overpressure Protection
245	KR-130 Size of Openings and Nozzles KR-140 Intervening Stop Valves KR-150 Permissible Overpressures KR-160 Set Pressures
247	Article KR-2 Requirements for Rupture Disk Devices KR-200 Materials for Rupture Disk Devices KR-210 Flow Capacity Rating KR-220 Rupture Disk Devices Used in Combination With Flow Capacity Certified Pressure Relief Valves
249	Article KR-3 Requirements for Pressure Relief Valves KR-300 General Requirements KR-310 Design Requirements
250	KR-320 Material Selection KR-330 Inspection of Manufacturing and/or Assembly of Pressure Relief Valves KR-340 Production Testing by Manufacturers and Assemblers
252	Article KR-4 Certification Mark KR-400 Marking KR-401 Official New Certification Mark to Denote the American Society of Mechanical Engineers’ Standard
253	KR-410 Use of Certification Mark
254	Article KR-5 Certification of Flow Capacity of Pressure Relief Valves KR-500 Flow Capacity Certification Tests KR-510 Recertification Testing KR-520 Procedures for Flow Capacity Certification Tests
256	KR-530 Flow Capacity Conversions KR-523.3 Constant C for Gas Versus Specific Heat Ratio (U.S. Customary Units)
257	KR-523.3M Constant C for Gas Versus Specific Heat Ratio (SI Units)
258	KR-540 Flow Capacity Certification Testing Requirements for Test Facilities KR-550 Test Data Reports KR-560 Certification of Flow Capacity of Pressure Relief Valves in Combination With Rupture Disk Devices KR-570 Optional Testing of Rupture Disk Devices and Pressure Relief Valves
260	Article KR-6 Requirements for Power-Actuated Pressure Relief Systems KR-600 General Requirements KR-610 System Requirements KR-620 Flow Capacity Testing
262	Part KE Examination Requirements Article KE-1 Requirements for Examination Procedures and Personnel Qualification KE-100 General KE-110 Qualification and Certification of Nondestructive Examination Personnel
263	KE-101 Thickness, Image Quality Indicator Designations, Essential Holes, and Wire Diameters (U.S. Customary Units)
264	KE-101M Thickness, Image Quality Indicator Designations, Essential Holes, and Wire Diameters (SI Units)
265	Article KE-2 Requirements for Examination and Repair of Material KE-200 General Requirements KE-210 General Requirements for Repair of Defects
266	KE-220 Examination and Repair of Plate KE-230 Examination and Repair of Forgings and Bars
268	KE-240 Examination and Repair of Seamless and Welded (Without Filler Metal) Tubular Products and Fittings KE-242.1 Axial Propagation of Sound in Tube Wall
269	KE-250 Examination and Repair of Tubular Products and Fittings Welded With Filler Metal
270	KE-260 Examination of Bolts, Studs, and Nuts
271	Article KE-3 Examination of Welds and Acceptance Criteria KE-300 Examination of Welds and Weld Overlay
273	KE-310 Examination of Weld Edge Preparation Surfaces KE-320 Types of Welds and Their Examination KE-301-1 Flaw Acceptance Criteria for 1 in. (25 mm) to 12 in. (300 mm) Thick Weld
274	KE-301-2 Flaw Acceptance Criteria for Larger Than 12 in. (300 mm) Thick Weld
275	KE-330 Acceptance Standards KE-301-1 Single Indications
276	KE-301-2 Multiple Planar Flaws Oriented in Plane Normal to Pressure Retaining Surface
277	KE-301-3 Parallel Planar Flaws
278	KE-301-4 Nonaligned Coplanar Flaws in Plane Normal to Pressure Retaining Surface (Illustrative Flaw Configurations)
279	KE-301-5 Multiple Aligned Planar Flaws
280	KE-321 Illustration of Welded Joint Locations Typical of Categories A, B, C, and D KE-332 Radiographic Acceptance Standards for Rounded Indications (Examples Only)
281	Article KE-4 Final Examination of Vessels KE-400 Surface Examination After Hydrotest KE-410 Inspection of Lined Vessel Interior After Hydrotest
282	Article KE-5 Additional Examination Requirements for Composite Reinforced Pressure Vessels (CRPV) KE-500 Scope
283	KE-503 Visual Acceptance Criteria for FRP Laminate (U.S. Customary Units)
284	KE-503M Visual Acceptance Criteria for FRP Laminate (SI Units)
286	Part KT Testing Requirements Article KT-1 Testing Requirements KT-100 Scope KT-110 Requirements for Sample Test Coupons
287	Article KT-2 Impact Testing for Welded Vessels KT-200 Impact Tests KT-210 Location and Orientation of Specimens KT-220 Impact Tests for Welding Procedure Qualifications KT-230 Impact Test of Production Test Plates
288	KT-240 Basis for Rejection
289	Article KT-3 Hydrostatic Tests KT-300 Scope KT-310 Limits of Hydrostatic Test Pressure
290	KT-320 Fluid Media for Hydrostatic Tests KT-330 Test Procedure KT-340 Exemption for Autofrettaged Vessels
291	Article KT-4 Pressure Test Gages and Transducers KT-400 Type and Number of Gages or Transducers KT-410 Pressure Range of Test Gages and Transducers KT-420 Calibration of Test Gages and Transducers
292	Article KT-5 Additional Testing Requirements for Composite Reinforced Pressure Vessels (CRPV) KT-500 Responsibility KT-510 Testing Requirements
293	Part KS Marking, Stamping, Reports, and Records Article KS-1 Contents and Method of Stamping KS-100 Required Marking for Vessels KS-100 Official New Certification Mark to Denote the American Society of Mechanical Engineers’ Standard
294	KS-110 Application of Certification Mark KS-120 Part Marking KS-130 Application of Markings
295	KS-140 Attachment of Nameplate or Tag KS-150 Special Stamping Requirements for Composite Reinforced Pressure Vessels (CRPV) KS-132 Form of Stamping
296	Article KS-2 Obtaining and Using Certification Marks KS-200 Certification Mark Bearing Official Symbol KS-210 Application for Authorization KS-220 Issuance of Authorization KS-230 Inspection Agreement KS-240 Quality Control System
297	KS-250 Evaluation for Authorization and Reauthorization KS-260 Code Construction Before Receipt of Certificate of Authorization KS-270 Special Requirements Regarding Manufacturer’s Certificates for Manufacture of Composite Reinforced Pressure Vessels (CRPV)
298	Article KS-3 Report Forms and Maintenance of Records KS-300 Manufacturer’s Data Reports
299	KS-310 Maintenance of Radiographs KS-320 Maintenance of Records
300	Mandatory Appendix 1 Nomenclature
307	Mandatory Appendix 2 Quality Control System
310	Mandatory Appendix 3
311	Mandatory Appendix 4 Acceptance of Testing Laboratories and Authorized Observers for Capacity Certification of Pressure Relief Devices
313	Mandatory Appendix 5 Adhesive Attachment of Nameplates
314	Mandatory Appendix 6 Rounded Indications Charts Acceptance Standard for Radiographically Determined Rounded Indications in Welds
315	6-1 Aligned Rounded Indications
316	6-2 Groups of Aligned Rounded Indications
317	6-3.1 Charts for t 1/8 in. (3 mm) to 1/4 in. (6 mm), Inclusive
318	6-3.2 Charts for t Over 1/4 in. (6 mm) to 3/8 in. (10 mm), Inclusive
319	6-3.3 Charts for t Over 3/8 in. (10 mm) to 3/4 in. (19 mm), Inclusive
320	6-3.4 Charts for t Over 3/4 in. (19 mm) to 2 in. (50 mm), Inclusive
321	6-3.5 Charts for t Over 2 in. (50 mm) to 4 in. (100 mm), Inclusive
322	6-3.6 Charts for t Over 4 in. (100 mm)
323	Mandatory Appendix 7 Standard Units for Use in Equations 7-1 Standard Units for Use in Equations
324	Mandatory Appendix 8 Establishing Governing Code Editions and Cases for Pressure Vessels and Parts
325	Nonmandatory Appendix A Guide for Preparing Manufacturer’s Data Reports
326	K-1 Manufacturer’s Data Report for High Pressure Vessels
328	K-2 Manufacturer’s Partial Data Report for High Pressure Vessels
330	K-3 Manufacturer’s Data Report Supplementary Sheet
331	A-100.1 Instructions for the Preparation of Manufacturer’s Data Reports
333	K-4 Manufacturer’s or Assembler’s Certificate of Conformance for Pressure Relief Valves
334	A-100.2 Supplementary Instructions for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance Form K-4
335	CRPV-1A Manufacturer’s Data Report for Composite Reinforced Pressure Vessels
337	A-100.3 Instructions for the Preparation of Manufacturer’s Data Reports Form CRPV-1A
339	CRPV-2A Recommended Form for Qualifying the Laminate Design and the Laminate Procedure Specification Used in Manufacturing Composite Reinforced Pressure Vessels
341	Nonmandatory Appendix B Suggested Practice Regarding Post-Construction Requalification for High Pressure Vessels
343	B-800-1 Analysis of Pressure Vessels to Establish Examination Frequency
345	Nonmandatory Appendix C Guide to Information Appearing on Certificate of Authorization
346	C-1 Sample Certificate of Authorization
347	Nonmandatory Appendix D Fracture Mechanics Calculations
348	D-200 Typical Crack Types
349	D-300 Idealizations of a Crack Propagating From a Cross-Bore Corner
351	D-401.1 Coefficients G0 Through G3 for Surface Crack at Deepest Point
352	D-401.2 Coefficients G0 Through G3 for Surface Crack at Free Surface
354	D-403.1 Magnification Factors for Circumferential Crack
355	D-403.2 Polynomial Representation of Stress Distribution
356	D-403.3 Method of Correcting KI at Discontinuities Between Regions D-500 Crack Growth Rate Factors
357	Nonmandatory Appendix E Construction Details E-110 Thick Wall Blind End Proportions Not Requiring Detailed Analysis
358	E-120 Thin Wall Blind End Proportions Not Requiring Detailed Analysis
360	E-210.1 Typical Threaded End Closure
361	E-210.2 Thread Loading Distribution E-210.3 Detail of First Thread
362	E-222.1 Continuous Thread Example
363	E-222.2 Interrupted Thread Example
364	Nonmandatory Appendix F Approval of New Materials Under the ASME Boiler and Pressure Vessel Code
365	Nonmandatory Appendix G Design Rules for Clamp Connections
366	G-100.1 Clamp Nomenclature
367	G-100.2 Typical Clamp Lug Configurations
368	G-100.3 Typical Hub Design With the Bolts Contained Within the Body of the Clamp
372	G-300 Typical Self-Energizing Gaskets Used in This Division, Showing Diameter at Location of Gasket Load Reaction G
373	G-300.1 Values of f
374	G-900 Allowable Design Stress for Clamp Connections
375	Nonmandatory Appendix H Openings and Their Reinforcement
376	H-101 Straight Drill Connections for Thick Walled Cylinders
377	H-120.1 Chart for Determining Value of F
378	H-142 Nozzle Nomenclature and Dimensions
380	Nonmandatory Appendix I Guidance for the Use of U.S. Customary and SI Units in the ASME Boiler and Pressure Vessel Code
383	Nonmandatory Appendix J Stress Concentration Factors for Cross-Bores in Closed-End Cylinders and Square Blocks
384	J-110-1 Geometries of Square Blocks and Cylinders With Cross-Bores J-110-2 Tangential Stress Concentration Factors for Openings in Cylinders
385	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)
386	Nonmandatory Appendix L Linearization of Stress Results for Stress Classification
387	L-110.1 Stress Classification Line (SCL) and Stress Classification Plane (SCP)
388	L-110.2 Stress Classification Lines (SCLs)
389	L-200.1 Stress Classification Line Orientation and Validity Guidelines
391	L-311.1 Computation of Membrane and Bending Equivalent Stress Integration Method Using the Results From a Finite Element Model With Continuum Elements
393	L-400.1 Continuum Finite Element Model Stress Classification Line for the Structural Stress Method 347
394	L-410.1 Structural Stress Definitions for Continuum Finite Elements
395	L-410.1 Computation of Membrane and Bending Equivalent Stresses by the Structural Stress Method Using Nodal Force Results From a Finite Element Model With Continuum Elements
396	L-410.2 Processing Nodal Force Results With the Structural Stress Method Using the Results From a Finite Element Model With Three-Dimensional Second Order Continuum Elements
397	L-410.3 Processing Structural Stress Method Results for a Symmetric Structural Stress Range
398	L-411.1 Structural Stress Definitions for Shell or Plate Finite Elements
399	L-411.1 Computation of Membrane and Bending Equivalent Stresses by the Structural Stress Method Using the Results From a Finite Element Model With Shell Elements
400	L-411.2 Processing Nodal Force Results With the Structural Stress Method Using the Results From a Finite Element Model With Three-Dimensional Second Order Shell Elements
401	L-500.1 Element Sets for Processing Finite Element Nodal Stress Results With the Structural Stress Method Based on Stress Integration

Additional information

Standard Title	ASME BPVC – VIII – 3 -2013 BPVC Section VIII, Division 3: Alternative Rules for Construction of High Pressure Vessels
Published Code	ASME
Publication Date	2013
Pages Count	418

Preview PDF


PDF Format	Searchable	Printable	Preview Now

ASME BPVC VIII 3 2013

PDF Catalog

Related products