ASME RTP 1 2023
$75.42
ASME RTP-1-2023 Reinforced Thermoset Plastic Corrosion-Resistant Equipment
Published By | Publication Date | Number of Pages |
ASME | 2023 |
This Standard applies to stationary vessels used for the storage, accumulation, or processing of corrosive or other substances at pressures not exceeding 15 psig external and/or 15 psig internal above any hydrostatic head.
PDF Catalog
PDF Pages | PDF Title |
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4 | CONTENTS |
12 | FOREWORD |
13 | STATEMENT OF POLICY ON THE USE OF THE ASME SINGLE CERTIFICATION MARK AND CODE AUTHORIZATION IN ADVERTISING STATEMENT OF POLICY ON THE USE OF ASME MARKING TO IDENTIFY MANUFACTURED ITEMS |
14 | ASME RTP COMMITTEE ROSTER |
16 | CORRESPONDENCE WITH THE RTP COMMITTEE |
18 | INTRODUCTION |
19 | ASME RTP-1–2023 SUMMARY OF CHANGES |
22 | Part 1 General Requirements 1-100 INTRODUCTION 1-110 Scope 1-120 Exclusions 1-130 Application Limitations 1-200 USER’S BASIC REQUIREMENTS SPECIFICATION |
23 | Forms Form 1-1 User’s Basic Requirements Specification (UBRS) (As Required by the Provisions of ASME RTP-1) |
27 | 1-210 Service Restrictions 1-220 Critical Service Requirements |
28 | 1-230 Operation and Environmental Factor 1-300 FABRICATOR’S DESIGN REPORT 1-310 Qualifications of the ASME RTP-1 Qualified Designer 1-400 INSPECTION |
29 | 1-410 Duties of the Certified Individual 1-420 Qualifications of the Certified Individual 1-430 Inspector’s Duty 1-440 Access for the Inspector 1-500 FABRICATOR’S QUALITY CONTROL PROGRAM 1-510 Fabricator’s Demonstration of Capability 1-520 Certification |
31 | Form 1-2 Fabricator’s Data Report (As Required by the Provisions of ASME RTP-1) |
33 | Form 1-3 Fabricator’s Partial Data Report |
34 | Part 2 Materials 2-100 SCOPE 2-200 LAMINATE COMPOSITIONS 2-210 Resin and Reinforcement Substitution 2-300 MATERIALS 2-310 Resin Matrix |
35 | 2-320 Fiber Reinforcement 2-330 Balsa Wood Core SUBPART 2A REQUIREMENTS FOR REPRESENTATIVE FLATLAMINATES 2A-100 INTRODUCTION 2A-200 LAMINATE REQUIREMENTS 2A-210 Laminate Construction 2A-220 Laminate Composition |
36 | 2A-300 REQUIREMENTS FOR PHYSICAL AND MECHANICAL PROPERTIES Tables Table 2A-1 Standard Laminate Composition Type I |
37 | Table 2A-2 Standard Laminate Composition Type II Table 2A-3 Minimum Values of Flat Laminates |
38 | 2A-400 TEST METHODS 2A-500 RECORDS |
39 | 2A-600 ADDITIONAL STANDARD LAMINATE COMPOSITIONS FOR SUBPART 2A SUBPART 2B REQUIREMENTS FOR LAMINATES DEVELOPED USING THE LAMINATION ANALYSIS METHOD (TYPE X) 2B-100 LAMINATE COMPOSITION 2B-110 Inner Surface Corrosion-Resistant Barrier 2B-120 Interior Layer Corrosion-Resistant Barrier 2B-130 Structural Layer 2B-140 Outer Surface 2B-200 REQUIREMENTS FOR PHYSICAL AND MECHANICAL PROPERTIES 2B-300 TEST METHODS |
40 | 2B-400 RECORDS SUBPART 2C PERMISSIBLE TOLERANCES FOR LAMINATE THICKNESS VARIATION 2C-100 TOLERANCE FOR AVERAGE SPOT THICKNESS 2C-200 TOLERANCE FOR THICKNESS OF A MAJOR PART 2C-300 EXCEPTIONS AND ADJUSTMENTS |
41 | Part 3 Design 3-100 SCOPE 3-200 GENERAL 3-300 DEFINITIONS AND RELATED REQUIREMENTS |
42 | SUBPART 3A DESIGN BY RULES 3A-100 LOADINGS 3A-110 Design Acceptability |
43 | 3A-120 Other Formulas 3A-130 Maximum Corrosion-Resistant Barrier Strain 3A-140 Maximum Compressive Stress Stability 3A-150 Conservative Design |
44 | 3A-200 PRESSURE AND AXIAL LOADS DESIGN 3A-210 Calculation of Minimum Thickness of Cylindrical Shells 3A-220 Design of Cylindrical Shells Under Combined Axial Loads |
45 | 3A-230 Minimum Thickness of Torispherical Heads 3A-240 Minimum Thickness of Ellipsoidal Heads 3A-250 Minimum Thickness of Toriconical Heads |
46 | Figures Figure 3-1 Torispherical Heads |
47 | 3A-260 Minimum Thickness of Flat-Bottom Heads Figure 3-2 Toriconical Head Dimensions |
48 | 3A-270 Minimum Thickness of Hemispherical Heads 3A-300 EXTERNAL PRESSURE DESIGN 3A-310 Cylindrical Shells |
49 | 3A-320 Torispherical and Elliptical Heads 3A-330 Stiffening Rings |
50 | 3A-340 Top Head Loads 3A-350 Toriconical Heads |
51 | Figure 3-3 Stiffener Details for Half-Round, Trapezoidal, and Filament Wound Band Configurations |
52 | 3A-400 INTERMITTENT LOAD DESIGN 3A-410 Design Loadings 3A-420 Specifying Design Loadings 3A-430 Assumed Design Loadings 3A-440 Stresses From Loadings 3A-450 Loading Design Examples 3A-460 Hold-Down Lugs |
53 | 3A-500 LARGE DIAMETER RTP EQUIPMENT BODY FLANGES 3A-600 VESSELS SUPPORTED BY SHELL ATTACHMENTS 3A-700 REINFORCEMENT OF CIRCULAR OPENINGS 3A-710 Wall Thickness Definitions |
54 | 3A-720 Reinforcement Diameter 3A-730 Reinforcement Thickness 3A-800 SECONDARY BOND SHEAR STRESS SUBPART 3B DESIGN BY STRESS ANALYSIS 3B-100 INTRODUCTION 3B-200 DESIGN ACCEPTABILITY 3B-210 Basis for Determining Stresses 3B-220 Terms Relating to Stress Analysis |
55 | 3B-300 LOADING |
56 | 3B-400 DESIGN 3B-500 STRESS CRITERIA 3B-600 EXTERNAL PRESSURE |
57 | 3B-700 ATTACHMENTS |
58 | Part 4 Fabrication 4-100 SCOPE 4-110 Fabrication Requirements 4-115 Overlay Taper Length 4-120 Large Diameter Fabrication Details 4-200 LARGE DIAMETER BODY FLANGES 4-300 SHELL JOINTS 4-310 Shell-to-Shell Joints 4-320 Type I and Type II Secondary Bond Overlays |
59 | Figure 4-1 Fabrication Tolerances |
60 | 4-330 Alternative Secondary Bond Overlays 4-400 FLANGED NOZZLES 4-410 Fabricating Flanged Nozzles Table 4-1 Flange Flatness Tolerance |
61 | Figure 4-2 Joint Arrangement |
62 | Figure 4-3 Flat-Bottom Tank Knuckle Detail |
64 | Figure 4-4 Support Skirt Attachment Detail |
65 | Figure 4-5(a) Nozzle Flange Dimensions for Class 150 Bolting (U.S. Customary Units) |
66 | Figure 4-5(b) Nozzle Flange Dimensions for Class 150 Bolting (SI Units) |
67 | Figure 4-6 Flanged Nozzle Lay-Up Method |
68 | Figure 4-7 Flush Nozzle Installation |
69 | Figure 4-8 Penetrating Nozzle Installation |
70 | Figure 4-9 Bottom Drain Detail |
71 | Figure 4-10 Nozzle Installation and Cutout Reinforcement Location Alternate |
72 | Figure 4-11 Nozzle Gussets |
73 | 4-420 Bolt Holes 4-430 Installation of Nozzles Table 4-2 Typical Dimensions of Manways Table 4-3 Shear Bond Length |
74 | 4-500 MANWAYS 4-510 Diameter 4-520 Installation 4-530 Bolt Holes 4-600 REINFORCEMENT OF CUTOUTS 4-700 TOLERANCES 4-800 BALSA WOOD CORED PLATES Figure 4-12 Flange Tolerances |
75 | Figure 4-13 Flat Cored Bottom Knuckle Detail |
76 | Part 5 Overpressure Protection 5-100 BASIS FOR DESIGN 5-110 Atmospheric Tanks 5-120 Excessive Pressure 5-130 Operating Characteristics 5-200 PROTECTION AGAINST OVERPRESSURE 5-300 TYPE OF OVERPRESSURE PROTECTION 5-400 LOCATION OF OVERPRESSURE PROTECTION DEVICES 5-500 INSTALLATION PRACTICES 5-600 OVERPRESSURE DEVICE SET PRESSURE 5-700 RELIEF DEVICE SIZING 5-710 Sizing of Spring or Deadweight Loaded Valves and Rupture Disks 5-720 Sizing of Vents and Overflows 5-800 DISCHARGE LINES FROM PRESSURE RELIEF DEVICES |
77 | 5-900 RESPONSIBILITY FOR DESIGN AND SELECTION |
78 | Part 6 Inspection and Tests 6-100 SCOPE 6-200 INSPECTOR 6-300 INSPECTION AND RESPONSIBILITY |
79 | 6-400 CONDITIONS FOR INSPECTION 6-500 EQUIPMENT DESIGN 6-600 MATERIALS 6-700 FABRICATION 6-800 FABRICATOR’S QUALITY ASSURANCE PROGRAM 6-900 FINAL INSPECTION 6-910 Resin Cure |
80 | 6-920 Dimensions and Laminate Thickness Checks |
81 | 6-930 Physical Property and Laminate Reinforcing Content Tests |
82 | 6-940 Laminate Imperfections — Visual Inspection |
83 | Table 6-1 RTP Visual Inspection Acceptance Criteria |
86 | 6-950 Pressure Tests and Acoustic Emission Tests 6-960 Procedures for Rectifying Nonconformities or Imperfections |
87 | Part 7 Shop Qualification 7-100 SCOPE 7-200 GENERAL 7-210 Shop Survey 7-300 FABRICATOR’S FACILITIES AND EQUIPMENT 7-400 PERSONNEL 7-500 QUALITY CONTROL PROGRAM, DOCUMENT HANDLING, AND RECORD SYSTEM 7-600 DEMONSTRATION OF CAPABILITY (DEMONSTRATION LAMINATES) |
88 | Table 7-1 Required Resins and Acceptable Fabrication Processes for Demonstration Laminates |
89 | 7-610 Hand Lay-Up and Spray-Up Demonstration Laminates 7-620 Filament Wound Demonstration Laminates Table 7-2 Dimensional Requirements for Hand Lay-Up and Spray-Up Demonstration Laminates Table 7-3 Reinforcement Requirements for Hand Lay-Up and Spray-Up Demonstration Laminates |
90 | 7-700 MINIMUM TEST VALUES FROM DEMONSTRATION LAMINATES 7-800 DEMONSTRATION VESSEL 7-900 IDENTIFYING DEMONSTRATION LAMINATES 7-1000 LABORATORY TEST AND TEST REPORT REQUIREMENTS FOR DEMONSTRATION LAMINATES |
92 | Figure 7-1 Dimensions for Tensile Test Specimen |
93 | Part 8 Certification 8-100 SCOPE 8-200 GENERAL 8-300 CERTIFICATION PROCESS 8-310 Application 8-320 Quality Control Program 8-330 Evaluation of Quality Control Program 8-340 Evaluation of Shop Qualification 8-350 Verification of Shop Qualification 8-400 ASME RTP-1 CERTIFICATE OF AUTHORIZATION HOLDER 8-410 Additional Responsibilities of the ASME RTP-1 Certificate Holder 8-420 Subcontracting 8-500 ISSUANCE OF CERTIFICATION 8-550 Maintaining Certification |
94 | 8-560 Renewal of Certification 8-570 Suspension of Certification 8-580 Withdrawal of Certification 8-600 DESIGNATED OVERSIGHT 8-700 DATA REPORTS 8-800 ASME RTP CERTIFIED MARK AND CERTIFIED DESIGNATOR 8-810 Marking Items With the ASME Certification Mark and the RTP Certification Designator 8-820 Authorization and Time of Marking 8-830 Control 8-840 RTP Requirements for Nameplate Construction and Attachment 8-850 Requirements for RTP Nameplate Information and Marking Figure 8-1 Official ASME Certification Mark With RTP Designator |
95 | 8-860 Requirements for RTP Nameplate Design |
96 | MANDATORY APPENDICES MANDATORY APPENDIX M-1 REINFORCEMENT MATERIALS RECEIVING PROCEDURES M1-100 INTRODUCTION M1A-100 INTRODUCTION M1A-200 ACCEPTANCE INSPECTION M1A-300 EQUIPMENT AND MEASURING TOOLS REQUIRED M1A-400 PROCEDURES AND ACCEPTANCE LIMITS |
97 | Form M1A-1 Veil and Mat Reinforcement Log Sheet |
98 | M1B-100 INTRODUCTION M1B-200 ACCEPTANCE INSPECTIONS M1B-300 EQUIPMENT AND MEASURING TOOLS M1B-400 PROCEDURES AND ACCEPTANCE LIMITS |
99 | Form M1B-1 Roving Reinforcement Log Sheet |
100 | M1C-100 INTRODUCTION M1C-200 ACCEPTANCE INSPECTIONS M1C-300 EQUIPMENT AND MEASURING TOOLS REQUIRED |
101 | Form M1C-1 Fabric Reinforcement Log Sheet |
102 | M1C-400 PROCEDURES AND ACCEPTANCE LIMITS |
103 | M1D-100 INTRODUCTION M1D-200 ACCEPTANCE INSPECTIONS M1D-300 EQUIPMENT REQUIRED M1D-400 PROCEDURES AND ACCEPTANCE LIMITS |
104 | Form M1D-1 Milled Fiber Reinforcement Log Sheet |
106 | MANDATORY APPENDIX M-2 MATRIX MATERIALS RECEIVING PROCEDURES M2-100 INTRODUCTION M2-200 SAFETY M2A-100 INTRODUCTION M2A-200 REQUIREMENTS |
107 | M2A-300 ACCEPTANCE CRITERIA M2B-100 INTRODUCTION M2B-200 APPARATUS M2B-300 PROCEDURE M2B-400 CALCULATIONS M2B-500 REPORT M2C-100 INTRODUCTION M2C-200 APPARATUS M2C-300 PROCEDURE FOR TEMPERATURE ADJUSTMENT |
108 | M2C-400 PROCEDURE FOR THIXOTROPIC RESINS M2C-500 PROCEDURE FOR NONTHIXOTROPIC RESINS M2C-600 CALCULATIONS M2C-700 REPORT M2D-100 INTRODUCTION M2D-200 APPARATUS M2D-300 PROCEDURE |
109 | M2D-400 REPORT M2F-100 INTRODUCTION M2F-200 DEFINITION AND LIMITS M2F-300 ACCEPTANCE INSPECTION M2F-400 ACCEPTANCE CRITERIA M2F-500 INSPECTION IN USE |
110 | Form M2E-1 Resin Log Sheet |
111 | Form M2E-2 Curing Agents Log Sheet |
112 | Form M2F-1 Common Additives Log Sheet |
113 | Figure M3-1 Moment Resultants MANDATORY APPENDIX M-3 CALCULATIONS USING THE CLASSICAL LAMINATION THEORY (CLT) ANALYSIS METHOD M3-100 SCOPE |
114 | Figure M3-2 Force Resultants Figure M3-3 Geometry and Notation of an n-Layered Laminate |
115 | Figure M3-4 Coordinate Systems M3-200 PRELIMINARY CALCULATIONS FOR THE CLT METHOD |
117 | M3-300 MICROMECHANICS EQUATIONS FOR A UNIDIRECTIONAL LAMINA |
126 | M3-400 THE CLT ANALYSIS PROCEDURE |
128 | M3-500 THE QUADRATIC INTERACTION CRITERION |
130 | M3-600 DESIGN EXAMPLE CALCULATIONS |
131 | Table M3-1 Properties for Materials in the Design Example |
133 | Table M3-2 Lamina Input for CLT Calculations |
138 | Table M3-3 Strains, Stresses, and Strength Ratios |
139 | Table M3-4 Woven Roving Layer Modeled as a Balanced and Symmetric Three-Ply Laminate |
141 | MANDATORY APPENDIX M-4 QUALITY CONTROL PROGRAM M4-100 GENERAL M4-200 ORGANIZATION M4-300 DOCUMENTATION M4-400 QUALITY CONTROL |
142 | M4-500 EXAMPLE OF A FABRICATOR’S QUALITY CONTROL PROGRAM |
143 | MANDATORY APPENDIX M-5 QUALIFICATION OF LAMINATORS AND SECONDARY BONDERS M5-100 GENERAL REQUIREMENTS M5-200 RESPONSIBILITY M5-300 QUALIFICATION OF LAMINATORS M5-400 QUALIFICATION OF SECONDARY BONDERS |
146 | Figure M5-1 Pipe Test Piece Figure M5-2 Secondary Bond Test Assembly |
148 | Figure M5-3 Secondary Bond Test Specimen |
150 | MANDATORY APPENDIX M-6 DEMONSTRATION VESSEL M6-100 GENERAL M6-200 PRELIMINARY REQUIREMENTS M6-300 DESIGN, FABRICATION, AND TESTING OF THE DEMONSTRATION VESSEL M6-400 REQUIREMENTS SUBSEQUENT TO TESTING |
152 | Table M6-1 User’s Basic Requirements Specification (UBRS) (As Required by the Provisions of ASME RTP-1) |
156 | Figure M6-1 ASME RTP-1 Demonstration Vessel |
157 | Figure M6-2 Post-Test Sectioning of Vessel for Final Inspection and Display |
158 | Figure M6-3 Witness of Hydrotest of ASME RTP-1 Demonstration Vessel (Attachment No. 3) |
159 | MANDATORY APPENDIX M-7 REPAIR PROCEDURES M7-100 SCOPE M7-200 GENERAL CONDITIONS M7-300 REPAIRS TO CORRECT NONCONFORMITIES |
160 | M7-400 CLASSIFICATION OF REPAIRS M7-500 ORDER OF REPAIRS M7-600 REPAIR PROCEDURES |
164 | Table M8-1 Acceptance Criteria per Channel MANDATORY APPENDIX M-8 ACOUSTIC EMISSION EXAMINATION M8-100 SCOPE M8-200 GENERAL M8-300 WRITTEN REPORT OF RESULTS |
165 | MANDATORY APPENDIX M-9 GLOSSARY |
169 | MANDATORY APPENDIX M-10 REFERENCE DOCUMENTS |
172 | MANDATORY APPENDIX M-11 SUBMITTAL OF TECHNICAL INQUIRIES TO THE REINFORCED THERMOSET PLASTIC CORROSION-RESISTANT EQUIPMENT COMMITTEE |
173 | MANDATORY APPENDIX M-12 DUAL LAMINATE VESSELS M12-100 INTRODUCTION M12A-100 SCOPE M12A-200 APPLICATION LIMITATIONS M12B-100 SCOPE M12B-200 THERMOPLASTIC LINING MATERIALS |
174 | Table M12B-1 ASTM Specifications for Thermoplastic Polymers M12B-300 FIBER BACKING MATERIALS M12B-400 WELDING AND JOINING MATERIALS M12B-500 FILLER MATERIALS, PIGMENTS, PROCESSING AIDS, AND CONDUCTIVE MATERIALS M12B-600 MATERIALS RECEIVING PROCEDURES |
175 | Table M12B-2 Typical Thermoplastic Polymer Properties |
177 | Form M12B-1 Thermoplastic Sheet or Roll Receiving Log |
178 | Table M12B-3 Thermoplastic Sheet Visual Inspection Acceptance Criteria |
180 | Form M12B-2 Welding Material Receiving Log |
181 | Form M12B-3 Bonding Resin Receiving Log |
183 | Form M12B-4 Conductive Material Receiving Log |
185 | Form M12B-5 Thermoplastic Shape Receiving Log |
186 | M12C-100 SCOPE M12C-200 MATERIAL SELECTION M12C-300 SHEET MAP AND WELD PLACEMENT M12C-400 WALL ATTACHMENTS M12C-500 DESIGN STRESS LIMITATIONS |
187 | Figure M12C-1 Support Ledges Showing Recommended Weld Locations Away From Thermoformed Bends M12C-600 HEATING AND COOLING DESIGNS |
188 | M12D-100 SCOPE AND OPTIONS M12D-200 MACHINING OF THE THERMOPLASTIC LINING M12D-300 FORMING M12D-400 WELDING |
189 | Figure M12D-1 Maximum Offset Allowed for Joints Between Sheets With Different Thicknesses |
190 | Table M12D-1 Visual Weld Defects |
191 | Figure M12D-2 Visual Features of Hot Gas Welds Figure M12D-3 Illustrations of Flow Lines |
192 | Figure M12D-4 Heat-Affected Zone Patterns Figure M12D-5 Butt Fusion Welds Showing Melt Flow Lines |
193 | M12D-500 TESTS FOR DEFECTS IN WELDS M12D-600 FLANGES, NOZZLES, AND MANWAYS |
194 | Figure M12D-6 Nozzle Construction for Penetrating Nozzle M12D-700 INTERNAL ATTACHMENTS M12D-800 REPAIR PROCEDURES |
195 | Figure M12D-7 Nozzle and Manway Construction and Installation |
196 | M12D-900 APPLICATION OF THE RTP OVERLAY |
197 | Figure M12D-8 Bottom Nozzle Construction and Installation |
198 | M12D-1000 INSPECTION M12E-100 SCOPE M12E-200 FINAL INSPECTION M12F-100 SCOPE M12F-200 PRECAUTIONS TO PREVENT MECHANICAL DAMAGE M12F-300 INSPECTION AFTER SHIPMENT AND INSTALLATION |
199 | Table M12E-1 Lining Visual Inspection Acceptance Criteria M12G-100 SCOPE M12G-200 GENERAL M12G-300 FABRICATOR’S FACILITIES AND EQUIPMENT M12G-400 PERSONNEL |
200 | M12G-500 DEMONSTRATION OF CAPABILITY |
201 | Figure M12G-1 Dual Laminate Demonstration Vessel |
202 | Table M12G-1 User’s Basic Requirements Specification (UBRS) (As Required by the Provisions of ASME RTP-1) |
206 | Figure M12G-2 Post-Test Sectioning of Dual Laminate Demonstration Vessel for Final Inspection and Display M12H-100 GENERAL REQUIREMENTS M12H-200 RESPONSIBILITY M12H-300 QUALIFICATION OF WELDERS |
207 | Table M12H-1 Weld Strength Requirements M12H-400 EVALUATING WELD SAMPLES M12H-500 REQUALIFICATION M12H-600 WELDING PROCEDURE QUALIFICATION |
210 | MANDATORY APPENDIX M-13 BALSA WOOD RECEIVING AND INSPECTION PROCEDURES M13-100 INTRODUCTION M13-200 ACCEPTANCE INSPECTION M13-300 EQUIPMENT AND MEASURING TOOLS REQUIRED M13-400 PROCEDURES AND ACCEPTANCE LIMITS |
211 | Form M13-1 Balsa Wood Core Inspection Sheet |
212 | NONMANDATORY APPENDICES NONMANDATORY APPENDIX NM-1 DESIGN EXAMPLES NM1-100 INTRODUCTION NM1-200 EXAMPLE 1: VERTICAL VESSEL WITH A TORICONICAL LOWER HEAD |
213 | Figure NM1-1 Toriconical Head |
214 | NM1-300 EXAMPLE 2: HORIZONTAL VESSEL BY SUBPART 3B RULES |
215 | Figure NM1-2 Stress Intensity in a Toriconical Head |
216 | Table NM1-1 Example 1, Vessel With a Toriconical Lower Head |
217 | Figure NM1-3 Horizontal Tank |
218 | Figure NM1-4 Pressure Distribution |
219 | Figure NM1-5 Saddle Reaction |
220 | Figure NM1-6 Stress Along Top Meridian, Initial Try |
221 | Figure NM1-7 Stress Along 45-deg Meridian, Initial Try |
222 | Figure NM1-8 Stress Along 90-deg Meridian, Initial Try |
223 | Figure NM1-9 Stress Along 135-deg Meridian, Initial Try |
224 | Figure NM1-10 Stress Along Bottom Meridian, Initial Try |
225 | Table NM1-2 Wall Thickness in a Horizontal Tank |
226 | Figure NM1-11 Stress Along Top Meridian, Final Try |
227 | Figure NM1-12 Stress Along 45-deg Meridian, Final Try |
228 | Figure NM1-13 Stress Along 90-deg Meridian, Final Try |
229 | Figure NM1-14 Stress Along 135-deg Meridian, Final Try |
230 | Figure NM1-15 Stress Along Bottom Meridian, Final Try |
231 | NONMANDATORY APPENDIX NM-2 DESIGN OF INTEGRAL BODY FLANGES NM2-100 SCOPE NM2-200 NOMENCLATURE |
232 | NM2-300 EXAMPLE CALCULATION |
234 | Table NM2-1 Typical Body Flange Dimensions and Recommended Bolt Torque Values for RTP Body Flanges |
235 | Table NM2-2 Body Flange Design Using Full-Face Gaskets, Maximum Stress Less Than 3,000 psi — Type II Laminates |
237 | Table NM2-3 Body Flange Design Using Full-Face Gaskets, Maximum Stress Less Than 1,800 psi — Type I Laminates |
240 | Figure NM2-1 Values of F (Integral Flange Factors) |
241 | Figure NM2-2 Values of f (Hub Stress Correction Factors) |
242 | Figure NM2-3 Values of T, U, Y, and Z (Terms Involving K) |
243 | Figure NM2-4 Values of V (Integral Flange Factors) |
244 | Figure NM2-5 Design of Flat-Face Integral Body Flanges With Full-Face Gaskets (Example Calculation — 72-in. Flange at 30 psi) |
245 | Table NM2-4 Values of T, Z, Y, and U (Factors Involving K) |
252 | NONMANDATORY APPENDIX NM-3 SEISMIC, WIND, AND SNOW LOADINGS NM3-100 TYPICAL CODES NM3-200 NOMENCLATURE NM3-300 EXAMPLES |
259 | NONMANDATORY APPENDIX NM-4 HOLD-DOWN LUG DESIGN NM4-100 SCOPE NM4-200 NOMENCLATURE NM4-300 WOUND LUG DESIGN |
260 | Figure NM4-1 Wound-On Hold-Down Lug |
261 | Figure NM4-2A Secondary Bonded Hold-Down Lug, Type A |
262 | Figure NM4-2B Secondary Bonded Hold-Down Lug, Type B |
263 | Figure NM4-3 Moment Coefficient, ML Figure NM4-4 Uplift Coefficient, PG |
264 | NM4-400 SECONDARY BONDED LUG DESIGN |
265 | Figure NM4-5 Anchor Clips |
266 | NM4-500 SHEAR LEDGE DESIGN NM4-600 EXAMPLES NM4-610 Wound Lug Example |
267 | Figure NM4-6 Shear Ledge |
268 | NM4-620 Secondary Bonded Lug Example |
269 | NM4-630 Shear Ledge Example |
270 | NONMANDATORY APPENDIX NM-5 RING SUPPORT OF VESSELS NM5-100 SCOPE NM5-200 BAND WITH LUGS |
271 | Figure NM5-1 Lugs on Band |
272 | Figure NM5-2 Moment Coefficient, ML |
273 | Figure NM5-3 Split-Ring Flange |
274 | NM5-300 DOUBLE-RING SUPPORT |
275 | Figure NM5-4 Ring Support of Vessels |
276 | Figure NM5-5 Geometric Quantities |
277 | Figure NM5-6 Ring Design Chart for Three Lugs NM5-400 DESIGN PROCEDURE FOR A FABRICATED OR ROLLED STRUCTURAL CHANNEL DOUBLE-RING SUPPORT |
278 | Figure NM5-7 Ring Design Chart for Four Lugs NM5-500 SPLIT-RING CONSTRUCTION |
279 | Figure NM5-8 Ring Design Chart for Eight Lugs |
280 | Figure NM5-9 Example Cross Section NM5-600 EXAMPLES |
281 | Figure NM5-10 Lug |
283 | NONMANDATORY APPENDIX NM-6 EXAMPLE OF A FABRICATOR’S QUALITY CONTROL PROGRAM SECTION 1 QUALITY CONTROL POLICY |
284 | SECTION 2 QUALITY CONTROL ORGANIZATION SECTION 3 DOCUMENTATION |
285 | Figure NM6-1 Organization Chart |
286 | SECTION 4 INSPECTION OF RECEIVED GOODS SECTION 5 IN-PROCESS INSPECTION |
287 | SECTION 6 FINISHED EQUIPMENT INSPECTION |
288 | SECTION 7 RECORD RETENTION AND CONTROLS |
289 | Form NM6-1 Mixing Data Sheet |
290 | Form NM6-2 Component Data Sheet |
291 | Form NM6-3 Document Control Sheet |
292 | Form NM6-4 Document Distribution List |
293 | Form NM6-5 Document Preparation and Distribution Responsibility |
294 | Form NM6-6 Nonconformity Correction Report |
296 | Form NM6-7 QC Manual Master Revision List |
297 | NONMANDATORY APPENDIX NM-7 ACCEPTANCE INSPECTION BY USER’S INSPECTOR NM7-100 SCOPE NM7-200 USER’S INSPECTION NM7-300 INSPECTION AND RESPONSIBILITY NM7-400 DIMENSIONS NM7-500 GASEOUS BUBBLES, BLISTERS, AND POROSITY NM7-600 PACKAGING, SHIPMENT, AND INSTALLATION |
298 | Form NM7-1 RTP Equipment Inspection Requirements |
299 | Form NM7-2 Inspection Checklist for RTP Equipment |
302 | Form NM7-3 Inspection and Test Plan |
304 | Figure NM7-1 Recommended Fabrication Tolerances |
306 | Figure NM8-1 Lifting Vessel With Spreader Bar NONMANDATORY APPENDIX NM-8 HANDLING AND SHIPPING NM8-100 GENERAL NM8-200 HANDLING |
307 | Figure NM8-2 Strongback for Lifting NM8-300 TEMPORARY STORAGE NM8-400 SHIPPING |
308 | Figure NM8-3 Use of Strongbacks |
309 | Figure NM9-1 Flat-Face Valve Flange to Flat-Face RTP Nozzle Flange and Full-Face Gasket NONMANDATORY APPENDIX NM-9 INSTALLATION OF RTP VESSELS NM9-100 SCOPE NM9-200 RECEIVING INSPECTION NM9-300 INSTALLATION OF RTP VESSELS |
310 | Figure NM9-2 Raised-Face Valve Flange to Flat-Face RTP Nozzle Flange With Filler Ring and Full-Face Gasket Figure NM9-3 Flange Bolt Tightening |
311 | NM9-400 GENERAL SERVICE REQUIREMENTS |
312 | NONMANDATORY APPENDIX NM-10 REQUIREMENTS AND RESPONSIBILITIES OF USER (OR USER’S AGENT), FABRICATOR, INSPECTOR, AND CERTIFIED INDIVIDUAL NM10-100 SCOPE AND PURPOSE NM10-200 USER (OR USER’S AGENT) NM10-300 FABRICATOR |
313 | NM10-400 INSPECTOR NM10-500 CERTIFIED INDIVIDUAL |
315 | Figure NM10-1 ASME RTP-1 Flowchart |
316 | NONMANDATORY APPENDIX NM-11 DESIGN FOR 250-lb CONCENTRATED LOAD ON A TORISPHERICAL HEAD NM11-100 SCOPE NM11-200 NOMENCLATURE NM11-300 DESIGN FACTOR NM11-400 STRESS CALCULATIONS |
317 | Figure NM11-1 Stress Function |
318 | Figure NM12-1 Flange Dimensioning Details NONMANDATORY APPENDIX NM-12 RTP FLANGE DESIGN NM12-100 SCOPE NM12-200 NOMENCLATURE NM12-300 CALCULATION PROCEDURE |
319 | Figure NM12-2 Flange Loading Conditions |
320 | NM12-400 FLANGE DESIGN EXAMPLE |
322 | NONMANDATORY APPENDIX NM-13 STRESS ANALYSIS METHODS NM13A-100 SIGN CONVENTION AND NOMENCLATURE |
323 | NM13A-200 PRINCIPAL STRESSES AND STRESS INTENSITIES DUE TO INTERNAL PRESSURE |
324 | Figure NM13A-1 Sign Conventions for Cylindrical Segments NM13A-300 BENDING ANALYSIS FOR UNIFORMLY DISTRIBUTED EDGE LOADS |
326 | NM13B-100 SCOPE |
327 | NM13B-200 NOMENCLATURE AND SIGN CONVENTION |
328 | NM13B-300 PRINCIPAL STRESSES AND STRESS INTENSITIES RESULTING FROM INTERNAL OR EXTERNAL PRESSURE |
329 | Figure NM13B-1 Sign Conventions for Spherical Segments |
330 | NM13B-400 BENDING ANALYSIS FOR UNIFORMLY DISTRIBUTED EDGE LOADS |
331 | NM13B-500 ALTERNATE BENDING ANALYSIS OF A HEMISPHERICAL SHELL SUBJECTED TO UNIFORMLY DISTRIBUTED EDGE LOADS |
332 | NM13C-100 SCOPE NM13C-200 NOMENCLATURE AND SIGN CONVENTION Table NM13C-1 Multiplying Factors |
333 | NM13C-300 PRESSURE AND EDGE LOADS ON CIRCULAR FLAT PLATES NM13C-310 Pressure Loads on Simply Supported Flat Plates |
334 | Figure NM13C-1 Sign Conventions for Flat Plates Figure NM13C-2 Simply Supported Flat Plate NM13C-320 Edge Loads on Flat Plates |
335 | Figure NM13C-3 Edge Loads on Flat Plates Figure NM13C-4 Flat Plate Vessel Head NM13C-400 FLAT PLATE PRESSURE VESSEL HEADS NM13C-410 Displacements and Principal Stresses in a Flat Head |
336 | Figure NM13C-5 Flat Plate to Cylinder Joint NM13C-411 Displacements of a Flat Head NM13C-412 Principal Stresses in a Flat Head. |
337 | NM13C-500 GEOMETRY CONSTANTS NM13C-600 STRESS INTENSITIES IN A FLAT PLATE NM13D-100 GENERAL NM13D-200 INFORMATION REQUIRED |
338 | NM13D-300 METHOD OF ANALYSIS NM13D-310 Procedure for Discontinuity Analysis NM13D-320 Stresses NM13D-400 EXAMPLE ILLUSTRATING THE APPLICATION OF PARA. NM13D-310 NM13D-410 Given |
339 | Figure NM13D-1 Example Pressure Vessel Figure NM13D-2 Forces and Moments in Pressure Vessel Example NM13D-420 Required NM13D-430 Solution |
341 | Figure NM13D-3 Hemispherical Head Figure NM13D-4 Cylindrical Shell |
342 | Figure NM13D-5 Flat Plate Head |
347 | NONMANDATORY APPENDIX NM-15 FLAT CORED PLATE DESIGN NM15-100 CORED PLATE DESIGN |
348 | Figure NM15-1 Equivalent Solid and Cored Plates |
350 | NONMANDATORY APPENDIX NM-16 EXTERNAL PRESSURE DESIGN EXAMPLE FOR CYLINDRICAL SHELLS NM16-100 INTRODUCTION NM16-200 NASA SP-8007 SOLUTION |
352 | NM16-300 USING SIMPLIFIED EQUATION |
353 | Figure NM17-1 Stiffener Moment of Inertia for a Half-Round NONMANDATORY APPENDIX NM-17 STIFFENER DESIGN CALCULATIONS NM17-100 INTRODUCTION NM17-200 STIFFENER MOMENT OF INERTIA FOR A HALF-ROUND |
355 | Figure NM17-2 Stiffener Moment of Inertia for a Trapezoidal Stiffener NM17-300 STIFFENER MOMENT OF INERTIA FOR A TRAPEZOIDAL STIFFENER |
357 | Figure NM17-3 Stiffener Moment of Inertia for a Filament Wound Band NM17-400 STIFFENER MOMENT OF INERTIA FOR A FILAMENT WOUND BAND |
359 | SI UNITS |