ASME RTP 1 2017
$98.04
ASME RTP-1 Reinforced Thermoset Plastic Corrosion-Resistant Equipment
| Published By | Publication Date | Number of Pages |
| ASME | 2017 | 343 |
This Standard applies to stationary reinforced thermoset plastic corrosion resistant 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 |
|---|---|
| 4 | CONTENTS |
| 11 | FOREWORD |
| 12 | STATEMENT OF POLICY ON THE USE OF CERTIFICATION MARKS AND CODE AUTHORIZATION IN ADVERTISING STATEMENT OF POLICY ON THE USE OF ASME MARKING TO IDENTIFY MANUFACTURED ITEMS |
| 13 | ASME RTP COMMITTEE ROSTER |
| 15 | INTRODUCTION |
| 16 | ASME RTP-1-2017 SUMMARY OF CHANGES |
| 20 | REINFORCED THERMOSET PLASTIC CORROSION-RESISTANT EQUIPMENT Part 1 General Requirements 1-100 INTRODUCTION 1-110 Scope 1-120 Exclusions 1-130 Application Limitations |
| 21 | 1-200 USERŒS BASIC REQUIREMENTS SPECIFICATION 1-210 Service Restrictions 1-220 Critical Service Requirements |
| 22 | Tables Table 1-1 User’s Basic Requirements Specification (UBRS)(As Required by the Provisions of ASME RTP-1) |
| 26 | 1-300 FABRICATORŒS DESIGN REPORT 1-310 Qualifications of the RTP-1 Qualified Designer 1-400 INSPECTION 1-410 Duties of the Certified Individual |
| 27 | 1-420 Qualifications of the Certified Individual 1-430 InspectorŒs Duty 1-440 Access for the Inspector 1-500 FABRICATORŒS QUALITY CONTROL PROGRAM 1-510 FabricatorŒs Demonstration of Capability 1-520 Certification |
| 28 | Table 1-2 Fabricator’s Data Report(As Required by the Provisions of ASME RTP-1) |
| 30 | Table 1-3 Fabricator’s Partial Data Report |
| 31 | Part 2 Materials 2-100 SCOPE 2-200 LAMINATE COMPOSITIONS 2-210 Resin and Reinforcement Substitution 2-300 MATERIALS 2-310 Resin Matrix |
| 32 | 2-320 Fiber Reinforcement 2-330 Balsa Wood Core SUBPART 2A REQUIREMENTS FOR REPRESENTATIVE FLAT LAMINATES 2A-100 INTRODUCTION 2A-200 LAMINATE REQUIREMENTS 2A-210 Laminate Construction 2A-220 Laminate Composition |
| 33 | Table 2A-1 Standard Laminate Composition Type I |
| 34 | Table 2A-2 Standard Laminate Composition Type II |
| 35 | 2A-300 REQUIREMENTS FOR PHYSICAL AND MECHANICAL PROPERTIES Table 2A-3 Minimum Values of Flat Laminates |
| 36 | 2A-400 TEST METHODS 2A-500 RECORDS 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 |
| 37 | 2B-140 Outer Surface 2B-200 REQUIREMENTS FOR PHYSICAL AND MECHANICAL PROPERTIES 2B-300 TEST METHODS 2B-400 RECORDS SUBPART 2C PERMISSIBLE TOLERANCES FOR LAMINATE THICKNESS VARIATION 2C-100 TOLERANCE FOR AVERAGE SPOT THICKNESS 2C-200 TOLERANCE FOR AVERAGE THICKNESS OF A MAJOR PART 2C-300 EXCEPTIONS AND ADJUSTMENTS |
| 38 | Part 3 Design 3-100 SCOPE 3-200 GENERAL 3-300 DEFINITIONS |
| 39 | SUBPART 3A DESIGN BY RULES 3A-100 LOADINGS 3A-110 Design Acceptability |
| 40 | 3A-120 Other Formulas 3A-130 Maximum Corrosion-Resistant Barrier Strain 3A-140 Maximum Compressive Stress Stability 3A-150 Conservative Design 3A-200 DESIGN FOR TOTAL INTERNAL PRESSURE 3A-210 Calculation of Minimum Thickness of Cylindrical Shells |
| 41 | 3A-220 Design of Cylindrical Shells Under Combined Axial Loads 3A-230 Minimum Thickness of Torispherical Heads |
| 42 | 3A-240 Minimum Thickness of Ellipsoidal Heads 3A-250 Minimum Thickness of Toriconical Heads 3A-260 Minimum Thickness of Flat Bottom Heads Figures Fig. 3-1 Toriconical Head Dimensions |
| 43 | 3A-270 Minimum Thickness of Hemispherical Heads 3A-300 DESIGN FOR EXTERNAL PRESSURE 3A-310 Cylindrical Shells |
| 44 | 3A-320 Torispherical and Elliptical Heads 3A-330 Stiffening Rings |
| 45 | 3A-340 Top Head Loads 3A-350 Toriconical Heads |
| 46 | 3A-360 Stiffening Rings 3A-400 SEISMIC, WIND, AND SNOW LOADINGS 3A-410 Design Loadings Fig. 3-2 Toriconical Head Dimensions for External Pressure |
| 47 | 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 3A-500 LARGE DIAMETER RTP EQUIPMENT BODY FLANGES 3A-600 VESSELS SUPPORTED BY SHELL ATTACHMENTS 3A-700 REINFORCEMENT OF CIRCULAR OPENINGS |
| 48 | 3A-710 Wall Thickness Definitions 3A-720 Reinforcement Diameter 3A-730 Reinforcement Thickness 3A-800 SECONDARY BOND SHEAR STRESS SUBPART 3B DESIGN BY STRESS ANALYSIS 3B-100 INTRODUCTION |
| 49 | 3B-200 DESIGN ACCEPTABILITY 3B-210 Basis for Determining Stresses 3B-220 Terms Relating to Stress Analysis |
| 50 | 3B-300 LOADING 3B-400 DESIGN 3B-500 STRESS CRITERIA |
| 51 | 3B-600 EXTERNAL PRESSURE 3B-700 ATTACHMENTS |
| 52 | Part 4 Fabrication 4-100 SCOPE 4-110 Fabrication Requirements 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 |
| 53 | 4-330 Alternative Secondary Bond Overlays 4-400 FLANGED NOZZLES 4-410 Fabricating Flanged Nozzles 4-420 Bolt Holes 4-430 Installation of Nozzles |
| 54 | 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 |
| 55 | Fig. 4-1 Torispherical Heads |
| 56 | Fig. 4-2 Flat-Bottom Tank Knuckle Detail |
| 58 | Fig. 4-3 Joint Arrangement |
| 59 | Fig. 4-4 Flush Nozzle Installation |
| 60 | Fig. 4-5 Penetrating Nozzle Installation |
| 61 | Fig. 4-6 Bottom Drain Detail |
| 62 | Fig. 4-7 Stiffener Details for Half-Round, Trapezoidal, and Filament Wound Band Configurations |
| 63 | Fig. 4-8 Support Skirt Attachment Detail |
| 64 | Fig. 4-9 Fabrication Tolerances |
| 65 | Fig. 4-10 Nozzle Flange Dimensions for Class 150 Bolting |
| 66 | Fig. 4-11 Flanged Nozzle Lay-Up Method |
| 67 | Fig. 4-12 Nozzle Installation and Cutout Reinforcement Location Alternate |
| 68 | Fig. 4-13 Nozzle Gussets |
| 69 | Fig. 4-14 Flange Tolerances Fig. 4-15 Flat Cored Bottom Knuckle Detail |
| 70 | Table 4-1 Flange Flatness Tolerance Table 4-2 Typical Dimensions of Manways Table 4-3 Shear Bond Length |
| 71 | 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 |
| 72 | 5-900 RESPONSIBILITY FOR DESIGN AND SELECTION |
| 73 | Part 6 Inspection and Tests 6-100 SCOPE 6-200 INSPECTOR 6-300 INSPECTION AND RESPONSIBILITY 6-400 CONDITIONS FOR INSPECTION |
| 74 | 6-500 EQUIPMENT DESIGN 6-600 MATERIALS 6-700 FABRICATION 6-800 FABRICATORŒS QUALITY ASSURANCE PROGRAM 6-900 FINAL INSPECTION 6-910 Resin Cure |
| 75 | 6-920 Dimensions and Laminate Thickness Checks |
| 76 | 6-930 Physical Property and Laminate Reinforcing Content Tests |
| 77 | 6-940 Laminate Imperfections — Visual Inspection 6-950 Pressure Tests and Acoustic Emission Tests |
| 78 | Table 6-1 RTP Visual Inspection Acceptance Criteria |
| 82 | 6-960 Procedures for Rectifying Nonconformities or Imperfections |
| 83 | Part 7 Shop Qualification 7-100 SCOPE 7-200 GENERAL 7-210 Shop Survey 7-300 FABRICATORŒS FACILITIES AND EQUIPMENT 7-400 PERSONNEL 7-500 QUALITY CONTROL PROGRAM, DOCUMENT HANDLING, AND RECORD SYSTEM 7-600 DEMONSTRATION OF CAPABILITY DEMONSTRATION LAMINATES |
| 84 | 7-610 Hand Lay-Up and Spray-Up Demonstration Laminates Table 7-1 Required Resins and Acceptable Fabrication Processes for Demonstration Laminates |
| 85 | Table 7-2 Dimensional Requirements for Hand Lay-Up and Spray-UpDemonstration Laminates Table 7-3 Reinforcement Requirements for Hand Lay-Up and Spray-Up Demonstration Laminates |
| 86 | 7-620 Filament Wound Demonstration Laminates 7-700 MINIMUM TEST VALUES FROM DEMONSTRATION LAMINATES 7-800 DEMONSTRATION VESSEL |
| 87 | 7-900 IDENTIFYING DEMONSTRATION LAMINATES 7-1000 LABORATORY TEST AND TEST REPORT REQUIREMENTS FOR DEMONSTRATION LAMINATES |
| 88 | Fig. 7-1 Dimensions for Tensile Test Specimen |
| 89 | 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 8-560 Renewal of Certification 8-570 Suspension of Certification |
| 90 | 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 Fig. 8-1 Official ASME Certification Mark WithRTP Designator |
| 91 | 8-860 Requirements for RTP Nameplate Design |
| 92 | MANDATORY APPENDICES MANDATORY APPENDIX M-1 REINFORCEMENT MATERIALS RECEIVING PROCEDURES M1-100 INTRODUCTION ARTICLE A FIBERGLASS SURFACING VEIL, ORGANIC FIBER SURFACING VEIL, CARBON FIBER VEIL, AND FIBERGLASS CHOPPED STRAND MAT M1A-100 INTRODUCTION M1A-200 ACCEPTANCE INSPECTION M1A-300 EQUIPMENT AND MEASURING TOOLS REQUIRED M1A-310 Inspection Table and Lights M1A-320 Linear Measuring Tools M1A-330 Laboratory Balance M1A-400 PROCEDURES AND ACCEPTANCE LIMITS M1A-410 Roll Identification and Package Inspection M1A-420 Visual Inspection of Mat |
| 93 | Table M1A-1 Veil and Mat Reinforcement Log Sheet |
| 94 | M1A-430 Weight per Square Foot of Mat ARTICLE B FIBERGLASS SPRAY-UP ROVING AND FILAMENT WINDING ROVING M1B-100 INTRODUCTION M1B-200 ACCEPTANCE INSPECTIONS M1B-300 EQUIPMENT AND MEASURING TOOLS M1B-310 Wrap Reel M1B-320 Laboratory Balance M1B-400 PROCEDURES AND ACCEPTANCE LIMITS M1B-410 Roving Identification and Package Inspection M1B-420 Visual Inspection of Roving |
| 95 | Table M1B-1 Roving Reinforcement Log Sheet |
| 96 | M1B-430 Measurement of Roving Yield ARTICLE C FIBERGLASS WOVEN ROVING FABRIC, FIBERGLASS UNIDIRECTIONAL FABRIC, AND FIBERGLASS NONWOVEN BIAXIAL FABRIC M1C-100 INTRODUCTION M1C-200 ACCEPTANCE INSPECTIONS M1C-300 EQUIPMENT AND MEASURING TOOLS REQUIRED M1C-310 Inspection Table and Lights M1C-320 Linear Measuring, Marking, and Cutting Tools M1C-330 Laboratory Balance M1C-400 PROCEDURES AND ACCEPTANCE LIMITS M1C-410 Roll Identification and Package Inspection |
| 97 | Table M1C-1 Fabric Reinforcement Log Sheet |
| 98 | M1C-420 Visual Inspection of Fabric M1C-430 Width Measure of Fabric M1C-440 Weight per Square Yard of Fabric |
| 99 | M1C-450 Construction ARTICLE D FIBERGLASS MILLED FIBERS M1D-100 INTRODUCTION M1D-200 ACCEPTANCE INSPECTIONS M1D-300 EQUIPMENT REQUIRED M1D-400 PROCEDURES AND ACCEPTANCE LIMITS M1D-410 Package Identification and Inspection M1D-420 Visual Inspection of Milled Fiber |
| 100 | Table M1D-1 Milled Fiber Reinforcement Log Sheet |
| 101 | MANDATORY APPENDIX M-2 MATRIX MATERIALS RECEIVING PROCEDURES M2-100 INTRODUCTION M2-200 SAFETY ARTICLE A VISUAL INSPECTION REQUIREMENTS M2A-100 INTRODUCTION M2A-200 REQUIREMENTS |
| 102 | M2A-300 ACCEPTANCE CRITERIA ARTICLE B SPECIFIC GRAVITY M2B-100 INTRODUCTION M2B-200 APPARATUS M2B-300 PROCEDURE M2B-400 CALCULATIONS M2B-500 REPORT ARTICLE C VISCOSITY, BROOKFIELD METHOD M2C-100 INTRODUCTION M2C-200 APPARATUS M2C-300 PROCEDURE FOR TEMPERATURE ADJUSTMENT M2C-400 PROCEDURE FOR THIXOTROPIC RESINS |
| 103 | M2C-500 PROCEDURE FOR NONTHIXOTROPIC RESINS M2C-600 CALCULATIONS M2C-700 REPORT ARTICLE D ROOM TEMPERATURE GEL TIME M2D-100 INTRODUCTION M2D-200 APPARATUS M2D-300 PROCEDURE |
| 104 | M2D-400 REPORT ARTICLE E RESIN AND CURING AGENTS LOG SHEETS ARTICLE F COMMON ADDITIVES M2F-100 INTRODUCTION M2F-200 DEFINITION AND LIMITS M2F-210 Thixotropic Agents M2F-220 Flame Retardant Synergists M2F-230 Ultraviolet Light Absorbers M2F-240 Pigments M2F-300 ACCEPTANCE INSPECTION M2F-400 ACCEPTANCE CRITERIA M2F-500 INSPECTION IN USE |
| 105 | Table M2E-1 Resin Log Sheet |
| 106 | Table M2E-2 Curing Agents Log Sheet |
| 107 | Table M2F-1 Common Additives Log Sheet |
| 108 | MANDATORY APPENDIX M-3 CALCULATIONS USING THE CLASSICAL LAMINATION THEORY CLT ANALYSIS METHOD M3-100 SCOPE M3-110 Notations Commonly Used in Laminate Analysis |
| 109 | M3-200 PRELIMINARY CALCULATIONS FOR THE CLT METHOD |
| 110 | Fig. M3-1 Moment Resultants Fig. M3-2 Force Resultants Fig. M3-3 Geometry and Notation of an n-Layered Laminate |
| 111 | Fig. M3-4 Coordinate Systems M3-300 MICROMECHANICS EQUATIONS FOR A UNIDIRECTIONAL LAMINA |
| 113 | M3-310 Micromechanics of Unidirectional Fiber Composites |
| 114 | M3-320 Micromechanics of Randomly Distributed Fiber-Reinforced Composites |
| 116 | M3-330 Micromechanics of Unidirectional Fiber Composites |
| 119 | M3-400 THE CLT ANALYSIS PROCEDURE |
| 122 | M3-500 THE QUADRATIC INTERACTION CRITERION M3-510 Notation and Equations |
| 123 | M3-520 Calculation of Layer Strains and Stresses |
| 124 | M3-530 Calculation of Strength Ratios M3-600 DESIGN EXAMPLE CALCULATIONS M3-610 Cylinder Simplified Design Example Calculations |
| 125 | Table M3-1 Properties for Materials in the Design Example M3-611 Lamina Mechanical Properties Using Micromechanics. M3-620 Advanced Design Example Calculations |
| 126 | Table M3-2 Lamina Input for CLT Calculations |
| 127 | M3-630 Stresses, Strains, and Strength Ratios Example M3-640 Macro or Smeared Property Formulation |
| 128 | Table M3-3 Stresses, Strains, and Strength Ratios |
| 129 | Table M3-4 Woven Roving Layer Modeled as a Balanced and Symmetric Three-Ply Laminate |
| 131 | MANDATORY APPENDIX M-4 QUALITY CONTROL PROGRAM M4-100 GENERAL M4-200 ORGANIZATION M4-300 DOCUMENTATION M4-400 QUALITY CONTROL |
| 132 | M4-500 EXAMPLE OF A FABRICATORŒS QUALITY CONTROL PROGRAM |
| 133 | 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 M5-410 Making Pipe Test Pieces M5-420 Making Secondary Bond Test Assemblies |
| 134 | Table M5-1 Laminator Qualification Report |
| 135 | Table M5-2 Secondary Bonder Qualification Report |
| 136 | Fig. M5-1 Pipe Test Piece M5-430 Making and Measuring Secondary Bond Test Specimens M5-440 Testing Secondary Bond Test Specimens and Calculating Secondary Bond Shear Strength |
| 137 | Fig. M5-2 Secondary Bond Test Assembly |
| 138 | Fig. M5-3 Secondary Bond Test Specimen |
| 139 | M5-450 Requirements for Qualification of Secondary Bonders |
| 140 | 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 |
| 141 | Table M6-1 User’s Basic Requirements Specification (UBRS)(As Required by the Provisions of ASME RTP-1) |
| 145 | Fig. M6-1 ASME RTP-1 Demonstration Vessel |
| 146 | Fig. M6-2 Post-Test Sectioning of Vessel for Final Inspection and Display |
| 147 | Fig. M6-3 Witness of Hydrotest of ASME RTP-1 Demonstration Vessel(Attachment No. 3) |
| 148 | MANDATORY APPENDIX M-7 REPAIR PROCEDURES M7-100 SCOPE M7-200 GENERAL CONDITIONS M7-210 Nonconformities M7-220 Incorrectly Placed/Sized Attachments M7-300 REPAIRS TO CORRECT NONCONFORMITIES M7-310 Unrepairable Nonconformities M7-400 CLASSIFICATION OF REPAIRS |
| 149 | M7-500 ORDER OF REPAIRS M7-600 REPAIR PROCEDURES M7-610 Type 1 — Inner Surface Repairs M7-620 Type 2 — Interior Layer Repairs |
| 150 | M7-630 Type 3 — Structural Layer Repairs M7-640 Type 4 — Dimensional Nonconformance Repairs |
| 151 | M7-650 Type 5 — Undercured Laminate Repairs M7-660 Type 6 — UserŒs Dimensional Nonconformance Repairs |
| 153 | Table M8-1 Acceptance Criteria Per Channel MANDATORY APPENDIX M-8 ACOUSTIC EMISSION EXAMINATION M8-100 SCOPE M8-200 GENERAL M8-300 DEFINITIONS AND INSTRUMENT CALIBRATION M8-310 Threshold of Acoustic Emission Detectability M8-320 Reference Amplitude Threshold |
| 154 | M8-330 Count Criterion, Nc, and Am Value M8-400 WRITTEN PROCEDURE REQUIREMENTS M8-500 WRITTEN REPORT OF RESULTS |
| 155 | MANDATORY APPENDIX M-9 GLOSSARY |
| 159 | MANDATORY APPENDIX M-10 REFERENCE DOCUMENTS |
| 162 | MANDATORY APPENDIX M-11 SUBMITTAL OF TECHNICAL INQUIRIES TO THE REINFORCED THERMOSET PLASTIC CORROSION-RESISTANT EQUIPMENT COMMITTEE M11-100 INTRODUCTION M11-200 INQUIRY FORMAT M11-300 REVISIONS OR ADDITIONS M11-400 CASES |
| 163 | M11-500 INTERPRETATIONS M11-600 SUBMITTALS |
| 164 | MANDATORY APPENDIX M-12 DUAL LAMINATE VESSELS M12-100 INTRODUCTION ARTICLE A GENERAL REQUIREMENTS M12A-100 SCOPE M12A-200 APPLICATION LIMITATIONS ARTICLE B MATERIALS M12B-100 SCOPE M12B-200 THERMOPLASTIC LINING MATERIALS |
| 165 | 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 |
| 166 | Table M12B-2 Typical Thermoplastic Polymer Properties |
| 167 | M12B-610 Thermoplastic Sheet M12B-611 Introduction. M12B-612 Acceptance Inspection M12B-613 Equipment and Measuring Tools Required M12B-613.1 Thickness Measuring Tools M12B-613.2 Linear Measuring Tools. M12B-613.3 Bond Strength Measuring Tools M12B-613.4 High Voltage Spark Test. M12B-614 Procedures and Acceptance Limits M12B-614.1 Sheet Identification and Package Inspection M12B-614.2 Visual Inspection of Thermoplastic Sheet or Roll |
| 168 | Table M12B-3 Thermoplastic Sheet or Roll Receiving Log |
| 169 | Table M12B-4 Thermoplastic Sheet Visual Inspection Acceptance Criteria M12B-614.3 Sheet Thickness M12B-614.4 Bond Strength Requirements M12B-614.5 Disposition of Nonconforming Material. M12B-620 Welding Consumables M12B-621 Introduction. |
| 170 | M12B-622 Acceptance Inspection M12B-623 Equipment and Measuring Tools Required M12B-623.1 Inspection Table and Lights. M12B-623.2 Dimensional Measuring Tools. M12B-624 Procedures and Acceptance Limits M12B-624.1 Welding Material Identification and Package Inspection M12B-624.2 Visual Inspection of Welding Consumables M12B-624.3 Dimensions Inspection M12B-630 Bonding Resin M12B-631 Introduction. M12B-632 Acceptance Inspection M12B-633 Equipment and Measuring Tools Required. M12B-634 Procedures and Acceptance Limits M12B-634.1 Resin Identification and Packaging Inspection |
| 171 | Table M12B-5 Welding Material Receiving Log |
| 172 | Table M12B-6 Bonding Resin Receiving Log |
| 173 | M12B-634.2 Bond Strength Measurement. M12B-640 Conductive Spark Test Targets M12B-641 Introduction. M12B-642 Acceptance Inspection M12B-643 Equipment and Measuring Tools Required M12B-643.1 Inspection Table and Lights. M12B-643.2 Small Scale Resin Mixing Area. M12B-643.3 Electric Conductivity Measuring Device. M12B-644 Procedures and Acceptance Limits M12B-644.1 Conductive Material Identification and Package Inspection M12B-644.2 Conductivity of Resin-Conductive Material Samples |
| 174 | Table M12B-7 Conductive Material Receiving Log |
| 175 | M12B-650 Thermoplastic Shapes for Vessel Components M12B-651 Introduction. M12B-652 Acceptance Inspections M12B-653 Equipment and Measuring Tools M12B-653.1 Inspection Table and Lights. M12B-653.2 Linear Measuring Tools. M12B-654 Procedures and Acceptance Limits M12B-654.1 Shape Identification and Package Inspection M12B-654.2 Visual Inspection of Thermoplastic Shapes M12B-654.3 Measurement of Thermoplastic Shape Dimensions M12B-654.4 Weldability. ARTICLE C DESIGN M12C-100 SCOPE |
| 176 | Table M12B-8 Thermoplastic Shape Receiving Log |
| 177 | M12C-200 MATERIAL SELECTION M12C-300 SHEET MAP AND WELD PLACEMENT M12C-400 WALL ATTACHMENTS M12C-500 DESIGN STRESS LIMITATIONS |
| 178 | Fig. M12C-1 Support Ledges Showing Recommended Weld Locations Away From Thermoformed Bends M12C-600 HEATING AND COOLING DESIGNS ARTICLE D FABRICATION M12D-100 SCOPE AND OPTIONS |
| 179 | M12D-200 MACHINING OF THE THERMOPLASTIC LINING M12D-300 FORMING M12D-310 Limits on Thinning of Lining During Forming M12D-320 Thermoforming M12D-400 WELDING M12D-410 Welder Qualification M12D-420 Welding Procedures M12D-421 Hot Gas and Extrusion Welding |
| 180 | Fig. M12D-1 Maximum Offset Allowed for Joints Between Sheets With Different Thicknesses M12D-422 Hot Plate Fusion Welds M12D-423 Flow Fusion Welding. |
| 181 | Table M12D-1 Visual Weld Defects |
| 182 | Fig. M12D-2 Visual Features of Hot Gas Welds Fig. M12D-3 Illustrations of Flow Lines |
| 183 | Fig. M12D-4 Heat-Affected Zone Patterns Fig. M12D-5 Butt Fusion Welds Showing Melt Flow Lines M12D-424 Cap Strip Welding |
| 184 | M12D-500 TESTS FOR DEFECTS IN WELDS M12D-510 High Voltage Spark Test M12D-520 Gas Penetrant Tests M12D-600 FLANGES, NOZZLES, AND MANWAYS M12D-610 Fabrication Options M12D-620 Shell-Neck and Neck-Flange Designs |
| 185 | Fig. M12D-6 Nozzle Construction for Penetrating Nozzle |
| 186 | Fig. M12D-7 Nozzle and Manway Constructions |
| 187 | Fig. M12D-8 Bottom Nozzle Constructions |
| 188 | M12D-700 INTERNAL ATTACHMENTS M12D-800 REPAIR PROCEDURES M12D-810 Scope M12D-820 General Conditions M12D-830 Nonconformities M12D-840 Repairable Nonconformities M12D-850 Irreparable Nonconformities |
| 189 | M12D-900 APPLICATION OF THE RTP OVERLAY M12D-910 Application of Spark Test Targets M12D-920 Testing Bond Strength Between Liner and RTP Overlay M12D-1000 INSPECTION ARTICLE E INSPECTION AND TEST M12E-100 SCOPE M12E-200 FINAL INSPECTION M12E-210 High Voltage Spark Test M12E-220 Lining Imperfections: Visual Inspection ARTICLE F SHIPPING AND HANDLING M12F-100 SCOPE |
| 190 | Table M12E-1 Lining Visual Inspection Acceptance Criteria M12F-200 PRECAUTIONS TO PREVENT MECHANICAL DAMAGE M12F-300 INSPECTION AFTER SHIPMENT AND INSTALLATION ARTICLE G SHOP QUALIFICATION M12G-100 SCOPE M12G-200 GENERAL M12G-300 FABRICATORŒS FACILITIES AND EQUIPMENT |
| 191 | M12G-400 PERSONNEL M12G-500 DEMONSTRATION OF CAPABILITY M12G-510 Welding Capability M12G-520 Bonding Capability M12G-530 Demonstration Vessel M12G-531 Demonstration Vessel Quality Requirements M12G-540 Procedures M12G-550 Fabricator Certification |
| 192 | Fig. M12G-1 Dual Laminate Demonstration Vessel |
| 193 | Table M12G-1 User’s Basic Requirements Specification (UBRS)(As Required by the Provisions of ASME RTP-1) |
| 197 | Fig. M12G-2 Post-Test Sectioning of Dual Laminate Demonstration Vessel for Final Inspection and Display |
| 198 | ARTICLE H QUALIFICATION OF WELDERS M12H-100 GENERAL REQUIREMENTS M12H-200 RESPONSIBILITY M12H-300 QUALIFICATION OF WELDERS M12H-310 Making Weld Test Samples M12H-311 Butt Welds M12H-312 Cap Strip Welds. M12H-313 Nozzle Welds. M12H-400 EVALUATING WELD SAMPLES |
| 199 | Table M12H-1 Weld Strength Requirements M12H-500 REQUALIFICATION M12H-600 WELDING PROCEDURE QUALIFICATION ARTICLE I GLOSSARY |
| 201 | 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 M13-410 Balsa Wood Identification and Package Inspection M13-420 Visual Inspection Criteria |
| 202 | Table M13-1 Balsa Wood Core Inspection Sheet |
| 203 | NONMANDATORY APPENDICES NONMANDATORY APPENDIX NM-1 DESIGN EXAMPLES NM1-100 INTRODUCTION NM1-200 EXAMPLE 1: VERTICAL VESSEL WITH A TORICONICAL LOWER HEAD |
| 204 | Fig. NM1-1 Toriconical Head |
| 205 | NM1-300 EXAMPLE 2: HORIZONTAL VESSEL BY SUBPART 3B RULES NM1-310 Loading on the Vessel |
| 206 | Fig. NM1-2 Stress Intensity in a Toriconical Head |
| 207 | Table NM1-1 Example 1, Vessel With aToriconical Lower Head NM1-320 Computer Stress Analysis NM1-330 Design Criterion |
| 208 | Fig. NM1-3 Horizontal Tank |
| 209 | Fig. NM1-4 Pressure Distribution |
| 210 | Fig. NM1-5 Saddle Reaction |
| 211 | Fig. NM1-6 Stress Along Top Meridian, Initial Try |
| 212 | Fig. NM1-7 Stress Along 45-deg Meridian, Initial Try |
| 213 | Fig. NM1-8 Stress Along 90-deg Meridian, Initial Try |
| 214 | Fig. NM1-9 Stress Along 135-deg Meridian, Initial Try |
| 215 | Fig. NM1-10 Stress Along Bottom Meridian, Initial Try |
| 216 | Table NM1-2 Wall Thickness in a Horizontal Tank |
| 217 | Fig. NM1-11 Stress Along Top Meridian, Final Try |
| 218 | Fig. NM1-12 Stress Along 45-deg Meridian, Final Try |
| 219 | Fig. NM1-13 Stress Along 90-deg Meridian, Final Try |
| 220 | Fig. NM1-14 Stress Along 135-deg Meridian, Final Try |
| 221 | Fig. NM1-15 Stress Along Bottom Meridian, Final Try |
| 222 | NONMANDATORY APPENDIX NM-2 DESIGN OF INTEGRAL BODY FLANGES NM2-100 SCOPE NM2-200 NOMENCLATURE |
| 223 | Table NM2-1 Typical Body Flange Dimensions and Recommended Bolt Torque Values for RTP Body Flanges |
| 224 | Table NM2-2 Body Flange Design Using Full-Face Gaskets,Maximum Stress Less Than 3,000 psi — Type II Laminates |
| 225 | Table NM2-3 Body Flange Design Using Full-Face Gaskets,Maximum Stress Less Than 1,800 psi — Type I Laminates |
| 226 | Fig. NM2-1 Design of Flat-Face Integral Body Flanges With Full-Face Gaskets |
| 227 | Fig. NM2-2 Values of F (Integral Flange Factors) |
| 228 | Fig. NM2-3 Values of f (Hub Stress Correction Factors) |
| 229 | Fig. NM2-4 Values of T, U, Y, and Z (Terms Involving K) |
| 230 | NM2-300 EXAMPLE CALCULATION |
| 231 | Fig. NM2-5 Values of V (Integral Flange Factors) |
| 232 | Fig. NM2-6 Design of Flat-Face Integral Body Flanges With Full-Face Gaskets (Example Calculation — 72-in. Flange at 30 psi) |
| 234 | Table NM2-4 Values of T, Z, Y, and U (Factors Involving K) |
| 238 | NONMANDATORY APPENDIX NM-3 SEISMIC, WIND, AND SNOW LOADINGS NM3-100 TYPICAL CODES NM3-200 NOMENCLATURE NM3-300 EXAMPLES NM3-310 Loading Criteria |
| 239 | NM3-320 Design for Sustained Loads NM3-321 Example a2: Empty Cantilevered Vessel Under Wind Load. |
| 240 | NM3-322 Empty Ring Supported Vessel Under Wind Load. |
| 241 | NM3-323 Flat-Bottomed Vessel Under Design Conditions With Wind Load. NM3-324 Ring Supported Vessel Under Operating Conditions and Wind Load. NM3-325 Snow Load on Top Head of Flat-Bottomed Example Vessel. |
| 242 | NM3-326 Seismic Loading on Vessels. NM3-327 Spectral Loading. NM3-328 Fixed and Sloshing Mass for the Contents. |
| 243 | NM3-329 Base Shear and Moment. NM3-330 Hold-Downs for Seismic Loading NM3-331 Example. |
| 245 | NONMANDATORY APPENDIX NM-4 HOLD-DOWN LUG DESIGN NM4-100 SCOPE NM4-200 NOMENCLATURE NM4-300 WOUND LUG DESIGN |
| 246 | Fig. NM4-1 Wound-On Hold-Down Lug |
| 247 | Fig. NM4-2A Secondary Bonded Hold-Down Lug, Type A |
| 248 | Fig. NM4-2B Secondary Bonded Hold-Down Lug, Type B |
| 249 | Fig. NM4-3 Moment Coefficient, ML Fig. NM4-4 Uplift Coefficient, PG |
| 250 | NM4-400 SECONDARY BONDED LUG DESIGN |
| 251 | Fig. NM4-5 Recommended Hold-Down Clip |
| 252 | NM4-500 EXAMPLES NM4-510 Wound Lug Example |
| 253 | NM4-520 Secondary Bonded Lug Example |
| 255 | NONMANDATORY APPENDIX NM-5 RING SUPPORT OF VESSELS NM5-100 SCOPE NM5-200 BAND WITH LUGS NM5-210 Nomenclature NM5-220 Design Procedure NM5-230 Split-Ring Flanges NM5-240 Thickness of Gussets and Baseplate |
| 256 | Fig. NM5-1 Lugs on Band |
| 257 | Fig. NM5-2 Moment Coefficient, ML |
| 258 | Fig. NM5-3 Split-Ring Flange |
| 259 | NM5-250 Shear Collar NM5-300 DOUBLE-RING SUPPORT NM5-310 Nomenclature NM5-320 Design Procedure for Double Rings on a Band |
| 260 | Fig. NM5-4 Ring Support of Vessels |
| 261 | Fig. NM5-5 Geometric Quantities |
| 262 | NM5-400 DESIGN PROCEDURE FOR A FABRICATED OR ROLLED STRUCTURAL CHANNEL DOUBLEÃRING SUPPORT NM5-410 Stress in Ring NM5-420 Design Charts NM5-430 Section Proportions NM5-500 SPLIT-RING CONSTRUCTION NM5-510 Nomenclature NM5-520 Design Procedure |
| 263 | Fig. NM5-6 Ring Design Chart for Three Lugs |
| 264 | Fig. NM5-7 Ring Design Chart for Four Lugs |
| 265 | Fig. NM5-8 Ring Design Chart for Eight Lugs NM5-521 Procedure NM5-522 Bolt Sizing |
| 266 | NM5-530 Welding NM5-600 EXAMPLES NM5-610 Double-Ring Support NM5-620 Band With Lugs NM5-630 Split-Ring Flange |
| 267 | Fig. NM5-9 Example Cross Section |
| 268 | Fig. NM5-10 Lug |
| 269 | NONMANDATORY APPENDIX NM-6 EXAMPLE OF A FABRICATORŒS QUALITY CONTROL PROGRAM SECTION 1 QUALITY CONTROL POLICY 1.1 Scope 1.2 Purpose 1.2.1 1.2.2 1.2.3 1.2.4 1.3 Laboratory Standards 1.3.1 1.3.2 1.4 Test Methods 1.5 Operating Procedures 1.5.1 1.5.2 1.6 Documentation 1.6.1 1.6.2 1.6.3 1.6.4 1.6.5 1.7 Nonconformity Correction Reports 1.7.1 1.7.2 1.7.3 |
| 270 | 1.7.4 1.8 Distribution of QC Manual 1.8.1 1.8.2 1.9 QC Manual Revision 1.9.1 1.9.2 1.9.3 1.9.4 1.10 Notification of In-Process Changes 1.10.1 1.10.2 1.10.3 SECTION 2 QUALITY CONTROL ORGANIZATION 2.1 Scope and Purpose 2.1.1 2.1.2 2.1.3 2.2 Organizational Responsibility 2.2.1 2.2.2 2.2.3 2.3 Organizational Functions 2.3.1 2.3.2 2.4 Organization Chart SECTION 3 DOCUMENTATION 3.1 Scope and Purpose 3.1.1 3.1.2 3.2 Minimum Documentation 3.3 Document Preparation Responsibility SECTION 4 INSPECTION OF RECEIVED GOODS 4.1 Resin 4.1.1 4.1.2 |
| 271 | Fig. NM6-1 Organization Chart |
| 272 | 4.1.3 4.1.4 4.1.5 4.1.6 4.2 Reinforcements 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.3 Curing Agents 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 4.4 Purchased and/or Subvended Items 4.4.1 4.4.2 4.4.3 4.4.4 4.5 Common Additives 4.5.1 4.5.2 4.5.3 4.5.4 SECTION 5 IN-PROCESS INSPECTION 5.1 Resin Mixing 5.1.1 5.1.2 5.1.3 5.2 Material Dispersion 5.2.1 |
| 273 | 5.2.2 5.3 Component Fabrication 5.3.1 5.3.2 5.3.3 5.3.4 5.3.5 5.4 Assembly SECTION 6 FINISHED EQUIPMENT INSPECTION 6.1 Resin Cure 6.1.1 6.1.2 6.1.3 6.2 Dimensions and Laminate Thickness 6.2.1 6.2.2 6.2.3 6.3 Visual Imperfections 6.3.1 6.3.2 6.4 Physical Property Tests 6.4.1 6.4.2 6.5 Equipment Pressure Tests 6.5.1 6.5.2 SECTION 7 RECORD RETENTION AND CONTROLS 7.1 Scope 7.1.1 7.1.2 |
| 274 | 7.1.3 7.2 Application and Retention 7.2.1 7.2.2 7.3 Record Retention 7.4 Procedure for Record Handling 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 |
| 275 | Table NM6-1 Mixing Data Sheet |
| 276 | Table NM6-2 Component Data Sheet |
| 277 | Table NM6-3 Document Control Sheet |
| 278 | Table NM6-4 Document Distribution List |
| 279 | Table NM6-5 Document Preparation and Distribution Responsibility |
| 280 | Table NM6-6 Nonconformity Correction Report |
| 282 | Table NM6-7 QC Manual Master Revision List |
| 283 | NONMANDATORY APPENDIX NM-7 ACCEPTANCE INSPECTION BY USERŒS INSPECTOR NM7-100 SCOPE NM7-200 USERŒS INSPECTION NM7-300 INSPECTION AND RESPONSIBILITY NM7-400 DIMENSIONS NM7-500 GASEOUS BUBBLES, BLISTERS, AND POROSITY NM7-600 PACKAGING, SHIPMENT, AND INSTALLATION |
| 284 | Table NM7-1 RTP Equipment Inspection Requirements |
| 285 | Table NM7-2 Inspection Checklist for RTP Equipment |
| 288 | Fig. NM7-1 Recommended Fabrication Tolerances |
| 290 | Fig. NM8-1 Lifting Vessel With Spreader Bar Fig. NM8-2 Strongback for Lifting NONMANDATORY APPENDIX NM-8 HANDLING AND SHIPPING NM8-100 GENERAL NM8-200 HANDLING |
| 291 | Fig. NM8-3 Use of Strongbacks NM8-300 TEMPORARY STORAGE NM8-400 SHIPPING |
| 292 | Fig. 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 |
| 293 | Fig. NM9-2 Raised-Face Valve Flange to Flat-Face RTP Nozzle Flange With Filler Ring and Full-Face Gasket NM9-400 GENERAL SERVICE REQUIREMENTS |
| 294 | Fig. NM9-3 Flange Bolt Tightening |
| 295 | NONMANDATORY APPENDIX NM-10 REQUIREMENTS AND RESPONSIBILITIES OF USER OR USERŒS AGENT, FABRICATOR, INSPECTOR, AND CERTIFIED INDIVIDUAL NM10-100 SCOPE AND PURPOSE NM10-200 USER OR USERŒS AGENT NM10-300 FABRICATOR |
| 296 | NM10-400 INSPECTOR NM10-500 CERTIFIED INDIVIDUAL |
| 298 | Fig. NM10-1 RTP-1 Flowchart |
| 299 | NONMANDATORY APPENDIX NM-11 DESIGN FOR 250Ãlb CONCENTRATED LOAD ON A TORISPHERICAL HEAD NM11-100 SCOPE NM11-200 NOMENCLATURE NM11-300 DESIGN FACTOR NM11-400 STRESS CALCULATIONS |
| 300 | Fig. NM11-1 Stress Function |
| 301 | Fig. NM12-1 Flange Dimensioning Details NONMANDATORY APPENDIX NM-12 FRP FLANGE DESIGN NM12-100 SCOPE NM12-200 NOMENCLATURE NM12-300 CALCULATION PROCEDURE |
| 302 | Fig. NM12-2 Flange Loading Conditions NM12-310 Nozzle Wall Thickness NM12-320 Gasket Seating Loads NM12-330 Design Operating Loads NM12-340 Flange Thickness NM12-350 Minimum Bolt Torque NM12-360 Maximum Bolt Torque |
| 303 | NM12-370 Hub Thickness and Height NM12-380 Bolt Spacing and Clearances NM12-400 FLANGE DESIGN EXAMPLE |
| 305 | NONMANDATORY APPENDIX NM-13 STRESS ANALYSIS METHODS ARTICLE A ANALYSIS OF CYLINDRICAL SHELLS NM13A-100 SIGN CONVENTION AND NOMENCLATURE |
| 306 | NM13A-200 PRINCIPAL STRESSES AND STRESS INTENSITIES DUE TO INTERNAL PRESSURE NM13A-210 Principal Stresses NM13A-220 Stress Intensities NM13A-300 BENDING ANALYSIS FOR UNIFORMLY DISTRIBUTED EDGE LOADS NM13A-310 Displacements, Bending Moments, and Shearing Forces in Terms of Conditions at Reference Edge, x = 0 |
| 307 | NM13A-320 Edge Displacements and Rotations in Terms of Edge Loads |
| 308 | NM13A-330 Principal Stresses Due to Bending ARTICLE B ANALYSIS OF SPHERICAL SHELLS NM13B-100 SCOPE NM13B-200 NOMENCLATURE AND SIGN CONVENTION |
| 309 | NM13B-300 PRINCIPAL STRESSES AND STRESS INTENSITIES RESULTING FROM INTERNAL OR EXTERNAL PRESSURE NM13B-310 Principal Stresses Resulting From Internal Pressure NM13B-320 Stress Intensities Resulting From Internal Pressure NM13B-330 Principal Stresses Resulting From External Pressure |
| 310 | NM13B-340 Stress Intensities Resulting From External Pressure NM13B-400 BENDING ANALYSIS FOR UNIFORMLY DISTRIBUTED EDGE LOADS NM13B-410 Displacement, Rotation, Moment, and Membrane Force in Terms of Loading Conditions at Reference Edge NM13B-420 Displacement and Rotation of Reference Edge in Terms of Loading Conditions at Reference Edge |
| 311 | NM13B-430 Principal Stresses in Spherical Shells Resulting From Edge Loads NM13B-500 ALTERNATE BENDING ANALYSIS OF A HEMISPHERICAL SHELL SUBJECTED TO UNIFORMLY DISTRIBUTED EDGE LOADS NM13B-510 Displacement, Rotation, Moment, and Shear Forces in Terms of Loading Conditions at Edge NM13B-520 Principal Stresses in a Hemispherical Shell Due to Edge Loads |
| 312 | Table NM13C-1 Multiplying Factors ARTICLE C ANALYSIS OF FLAT CIRCULAR HEADS NM13C-100 SCOPE NM13C-200 NOMENCLATURE AND SIGN CONVENTION NM13C-300 PRESSURE AND EDGE LOADS ON CIRCULAR FLAT PLATES |
| 313 | NM13C-310 Pressure Loads on Simply Supported Flat Plates NM13C-320 Edge Loads on Flat Plates NM13C-400 FLAT PLATE PRESSURE VESSEL HEADS |
| 314 | NM13C-410 Displacements and Principal Stresses in a Flat Head NM13C-411 Displacements of a Flat Head NM13C-412 Principal Stresses in a Flat Head. NM13C-500 GEOMETRY CONSTANTS |
| 315 | NM13C-600 STRESS INTENSITIES IN A FLAT PLATE ARTICLE D DISCONTINUITY STRESSES NM13D-100 GENERAL NM13D-200 INFORMATION REQUIRED NM13D-300 METHOD OF ANALYSIS |
| 316 | NM13D-310 Procedure for Discontinuity Analysis NM13D-320 Stresses NM13D-400 EXAMPLE ILLUSTRATING THE APPLICATION OF PARAGRAPH NM13D-310 NM13D-410 Given NM13D-420 Required NM13D-430 Solution |
| 323 | Fig. NM13A-1 Sign Conventions for Cylindrical Segments Fig. NM13B-1 Sign Conventions for Spherical Segments |
| 324 | Fig. NM13C-1 Sign Conventions for Flat Plates Fig. NM13C-2 Simply Supported Flat Plate Fig. NM13C-3 Edge Loads on Flat Plates Fig. NM13C-4 Flat Plate Vessel Head Fig. NM13C-5 Flat Plate to Cylinder Joint Fig. NM13D-1 Example Pressure Vessel |
| 325 | Fig. NM13D-2 Forces and Moments in Pressure Vessel Example Fig. NM13D-3 Hemispherical Head Fig. NM13D-4 Cylindrical Shell Fig. NM13D-5 Flat Plate Head |
| 326 | NONMANDATORY APPENDIX NM-14 DELETED |
| 327 | NONMANDATORY APPENDIX NM-15 FLAT CORED PLATE DESIGN NM15-100 CORED PLATE DESIGN NM15-110 Solid Plate Design NM15-120 Initial Estimate of Core Thickness NM15-130 Plate Deflections and Stresses NM15-140 Calculate Plate Deflection, deltacp; Facial Stress, sigmacp; and Core Stress, sigmacc NM15-150 Calculate Shear Stress at the Bond Line Tmax NM15-160 Design Optimization |
| 328 | Fig. NM15-1 Equivalent Solid and Cored Plates NM15-170 Design Example |
| 329 | NM15-180 Discussion |
| 330 | NONMANDATORY APPENDIX NM-16 EXTERNAL PRESSURE DESIGN EXAMPLE FOR CYLINDRICAL SHELLS NM16-100 INTRODUCTION NM16-200 NASA SP-8007 SOLUTION |
| 332 | NM16-300 USING SIMPLIFIED EQUATION |
| 333 | Fig. 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 |
| 335 | Fig. NM17-2 Stiffener Moment of Inertia for a Trapezoidal Stiffener NM17-300 STIFFENER MOMENT OF INERTIA FOR A TRAPEZOIDAL STIFFENER |
| 337 | Fig. NM17-3 Stiffener Moment of Inertia for a Filament Wound Band NM17-400 STIFFENER MOMENT OF INERTIA FOR A FILAMENT WOUND BAND |
| 339 | SI UNITS |
Related products
-
ASME PTB 2 2022
ASME PTB-2-2022 Guide to Life Cycle Management of Pressure Equipment Integrity Published By Publication Date…
