ASME BPVC VIII 1 2010
$290.00
ASME BPVC – VIII – 1 -2010 BPVC Section VIII-Rules for Construction of Pressure Vessels Division 1
| Published By | Publication Date | Number of Pages |
| ASME | 2010 | 850 |
None
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 5 | CONTENTS |
| 27 | LIST OF SECTIONS |
| 29 | FOREWORD |
| 31 | STATEMENTS OF POLICY |
| 32 | PERSONNEL |
| 44 | SUMMARY OF CHANGES |
| 50 | LIST OF CHANGES IN RECORD NUMBER ORDER |
| 53 | INTRODUCTION |
| 60 | SUBSECTION A GENERAL REQUIREMENTS PART UG GENERAL REQUIREMENTS FOR ALL METHODS OF CONSTRUCTION AND ALL MATERIALS UG- 1 SCOPE MATERIALS UG- 4 GENERAL |
| 61 | UG- 5 PLATE UG- 6 FORGINGS UG- 7 CASTINGS UG- 8 PIPE AND TUBES |
| 62 | UG- 9 WELDING MATERIALS UG- 10 MATERIAL IDENTIFIED WITH OR PRODUCED TO A SPECIFICATION NOT PERMITTED BY THIS DIVISION, AND MATERIAL NOT FULLY IDENTIFIED |
| 63 | UG- 11 PREFABRICATED OR PREFORMED PRESSURE PARTS |
| 65 | UG- 12 BOLTS AND STUDS UG- 13 NUTS AND WASHERS UG- 14 RODS AND BARS UG- 15 PRODUCT SPECIFICATION DESIGN UG- 16 GENERAL |
| 66 | UG- 17 METHODS OF FABRICATION IN COMBINATION UG- 18 MATERIALS IN COMBINATION UG- 19 SPECIAL CONSTRUCTIONS |
| 67 | UG- 20 DESIGN TEMPERATURE |
| 68 | UG- 21 DESIGN PRESSURE8 UG- 22 LOADINGS UG- 23 MAXIMUM ALLOWABLE STRESS VALUES9 |
| 70 | UG- 24 CASTINGS UG- 25 CORROSION |
| 71 | UG- 26 LININGS UG- 27 THICKNESS OF SHELLS UNDER INTERNAL PRESSURE |
| 72 | UG- 28 THICKNESS OF SHELLS AND TUBES UNDER EXTERNAL PRESSURE FIGURES FIG. UG-28 DIAGRAMMATIC REPRESENTATION OF VARIABLES FOR DESIGN OF CYLINDRICAL VESSELSSUBJECTED TO EXTERNAL PRESSURE |
| 73 | FIG. UG-28.1 DIAGRAMMATIC REPRESENTATION OF LINES OF SUPPORT FOR DESIGN OF CYLINDRICAL (10)VESSELS SUBJECTED TO EXTERNAL PRESSURE |
| 75 | UG- 29 STIFFENING RINGS FOR CYLINDRICAL SHELLS UNDER EXTERNAL PRESSURE |
| 77 | UG- 30 ATTACHMENT OF STIFFENING RINGS |
| 78 | FIG. UG-29.1 VARIOUS ARRANGEMENTS OF STIFFENING RINGS FOR CYLINDRICAL VESSELS SUBJECTED TOEXTERNAL PRESSURE |
| 79 | UG- 31 TUBES, AND PIPE WHEN USED AS TUBES OR SHELLS FIG. UG-29.2 MAXIMUM ARC OF SHELL LEFT UNSUPPORTED BECAUSE OF GAP IN STIFFENING RING OFCYLINDRICAL SHELL UNDER EXTERNAL PRESSURE |
| 80 | FIG. UG-30 SOME ACCEPTABLE METHODS OF ATTACHING STIFFENING RINGS |
| 81 | UG- 32 FORMED HEADS, AND SECTIONS, PRESSURE ON CONCAVE SIDE |
| 82 | UG- 33 FORMED HEADS, PRESSURE ON CONVEX SIDE TABLES TABLE UG-33.1 VALUES OF SPHERICAL RADIUS FACTOR Ko FORELLIPSOIDAL HEAD WITH PRESSURE ONCONVEX SIDE |
| 84 | FIG. UG-33.1 LENGTH Lc OF SOME TYPICAL CONICAL SECTIONS FOR EXTERNAL PRESSURE |
| 85 | UG- 34 UNSTAYED FLAT HEADS AND COVERS |
| 87 | FIG. UG-34 SOME ACCEPTABLE TYPES OF UNSTAYED FLAT HEADS AND COVERS |
| 89 | UG- 35 OTHER TYPES OF CLOSURES UG- 35.1 Dished Covers UG- 35.2 Quick- Actuating ( Quick- Opening) Closures |
| 90 | OPENINGS AND REINFORCEMENTS UG- 36 OPENINGS IN PRESSURE VESSELS |
| 91 | FIG. UG-36 LARGE HEAD OPENINGS — REVERSE-CURVE AND CONICAL SHELL-REDUCER SECTIONS |
| 93 | UG- 37 REINFORCEMENT REQUIRED FOR OPENINGS IN SHELLS AND FORMED HEADS FIG. UG-37 CHART FOR DETERMINING VALUE OF F,AS REQUIRED IN UG-37 |
| 94 | FIG. UG-37.1 NOMENCLATURE AND FORMULAS FOR REINFORCED OPENINGS |
| 95 | TABLE UG-37 VALUES OF SPHERICAL RADIUS FACTOR K1 |
| 96 | UG- 38 FLUED OPENINGS IN SHELLS AND FORMED HEADS UG- 39 REINFORCEMENT REQUIRED FOR OPENINGS IN FLAT HEADS FIG. UG-38 MINIMUM DEPTH FOR FLANGE OFFLUED-IN OPENINGS |
| 98 | UG- 40 LIMITS OF REINFORCEMENT UG- 41 STRENGTH OF REINFORCEMENT |
| 99 | FIG. UG-39 MULTIPLE OPENINGS IN RIM OF HEADS WITH A LARGE CENTRAL OPENING |
| 100 | FIG. UG-40 SOME REPRESENTATIVE CONFIGURATIONS DESCRIBING THE REINFORCEMENT DIMENSION t eAND THE OPENING DIMENSION d |
| 102 | FIG. UG-41.1 NOZZLE ATTACHMENT WELD LOADS AND WELD STRENGTH PATHS TO BE CONSIDERED |
| 103 | UG- 42 REINFORCEMENT OF MULTIPLE OPENINGS |
| 104 | UG- 43 METHODS OF ATTACHMENT OF PIPE AND NOZZLE NECKS TO VESSEL WALLS FIG. UG-42 EXAMPLES OF MULTIPLE OPENINGS |
| 105 | UG- 44 FLANGES AND PIPE FITTINGS TABLE UG-43 MINIMUM NUMBER OF PIPE THREADS FOR CONNECTIONS |
| 106 | UG- 45 NOZZLE NECK THICKNESS UG- 46 INSPECTION OPENINGS27 |
| 107 | TABLE UG-45NOZZLE MINIMUM THICKNESS REQUIREMENTS |
| 108 | BRACED AND STAYED SURFACES UG- 47 BRACED AND STAYED SURFACES FIG. UG-47 ACCEPTABLE PROPORTIONS FOR ENDSOF STAYS |
| 109 | UG- 48 STAYBOLTS UG- 49 LOCATION OF STAYBOLTS UG- 50 DIMENSIONS OF STAYBOLTS LIGAMENTS UG- 53 LIGAMENTS |
| 110 | FIG. UG-53.1 EXAMPLE OF TUBE SPACING WITH PITCH OF HOLES EQUAL IN EVERY ROW FIG. UG-53.2 EXAMPLE OF TUBE SPACING WITH PITCH OF HOLES UNEQUAL IN EVERY SECOND ROW FIG. UG-53.3 EXAMPLE OF TUBE SPACING WITH PITCH OF HOLES VARYINGIN EVERY SECOND AND THIRD ROW |
| 111 | UG- 54 SUPPORTS UG- 55 LUGS FOR PLATFORMS, LADDERS, AND OTHER ATTACHMENTS TO VESSEL WALLS FIG. UG-53.4 EXAMPLE OF TUBE SPACING WITHTUBE HOLES ON DIAGONAL LINES |
| 112 | FIG. UG-53.5 DIAGRAM FOR DETERMINING THE EFFICIENCY OF LONGITUDINAL AND DIAGONAL LIGAMENTSBETWEEN OPENINGS IN CYLINDRICAL SHELLS |
| 113 | FIG. UG-53.6 DIAGRAM FOR DETERMINING EQUIVALENT LONGITUDINAL EFFICIENCY OF DIAGONALLIGAMENTS BETWEEN OPENINGS IN CYLINDRICAL SHELLS |
| 114 | FABRICATION UG- 75 GENERAL UG- 76 CUTTING PLATES AND OTHER STOCK UG- 77 MATERIAL IDENTIFICATION ( SEE UG- 85) UG- 78 REPAIR OF DEFECTS IN MATERIALS UG- 79 FORMING SHELL SECTIONS AND HEADS |
| 115 | UG- 80 PERMISSIBLE OUT- OF- ROUNDNESS OF CYLINDRICAL, CONICAL, AND SPHERICAL SHELLS FIG. UG-80.1 MAXIMUM PERMISSIBLE DEVIATION FROM A CIRCULAR FORM e FOR VESSELS UNDEREXTERNAL PRESSURE |
| 116 | UG- 81 TOLERANCE FOR FORMED HEADS |
| 117 | UG- 82 LUGS AND FITTING ATTACHMENTS UG- 83 HOLES FOR SCREW STAYS UG- 84 CHARPY IMPACT TESTS FIG. UG-84 SIMPLE BEAM IMPACT TESTSPECIMENS (CHARPY TYPE TEST) |
| 119 | FIG. UG-84.1 CHARPY V-NOTCH IMPACT TEST REQUIREMENTS FOR FULL SIZE SPECIMENS FOR CARBONAND LOW ALLOY STEELS, HAVING A SPECIFIED MINIMUM TENSILE STRENGTH OF LESS THAN 95 ksi,LISTED IN TABLE UCS-23 |
| 120 | FIG. UG-84.1M CHARPY V-NOTCH IMPACT TEST REQUIREMENTS FOR FULL SIZE SPECIMENS FOR CARBONAND LOW ALLOY STEELS, HAVING A SPECIFIED MINIMUM TENSILE STRENGTH OF LESS THAN 655 MPa,LISTED IN TABLE UCS-23 |
| 121 | TABLE UG-84.2 CHARPY IMPACT TEST TEMPERATURE REDUCTIONBELOW MINIMUM DESIGN METAL TEMPERATURE TABLE UG-84.3 SPECIFICATIONS FOR IMPACT TESTED MATERIALSIN VARIOUS PRODUCT FORMS TABLE UG-84.4IMPACT TEST TEMPERATURE DIFFERENTIAL |
| 123 | UG- 85 HEAT TREATMENT INSPECTION AND TESTS UG- 90 GENERAL |
| 124 | UG- 91 THE INSPECTOR UG- 92 ACCESS FOR INSPECTOR UG- 93 INSPECTION OF MATERIALS |
| 125 | UG- 94 MARKING ON MATERIALS UG- 95 EXAMINATION OF SURFACES DURING FABRICATION |
| 126 | UG- 96 DIMENSIONAL CHECK OF COMPONENT PARTS UG- 97 INSPECTION DURING FABRICATION UG- 98 MAXIMUM ALLOWABLE WORKING PRESSURE UG- 99 STANDARD HYDROSTATIC TEST |
| 128 | UG- 100 PNEUMATIC TEST35 ( SEE UW- 50) UG- 101 PROOF TESTS TO ESTABLISH MAXIMUM ALLOWABLE WORKING PRESSURE |
| 133 | UG- 102 TEST GAGES |
| 134 | UG- 103 NONDESTRUCTIVE TESTING MARKING AND REPORTS UG- 115 GENERAL UG- 116 REQUIRED MARKING FIG. UG-116 OFFICIAL SYMBOLS FOR STAMP TODENOTE THE AMERICAN SOCIETY OF MECHANICALENGINEERS’ STANDARD |
| 135 | UG- 117 CERTIFICATES OF AUTHORIZATION AND CODE SYMBOL STAMPS |
| 138 | UG- 118 METHODS OF MARKING UG- 119 NAMEPLATES FIG. UG-118 FORM OF STAMPING |
| 139 | UG- 120 DATA REPORTS |
| 140 | OVERPRESSURE PROTECTION UG- 125 GENERAL |
| 141 | UG- 126 PRESSURE RELIEF VALVES45 |
| 142 | UG- 127 NONRECLOSING PRESSURE RELIEF DEVICES |
| 145 | UG- 128 LIQUID PRESSURE RELIEF VALVES UG- 129 MARKING FIG. UG-129.1 OFFICIAL SYMBOL FOR STAMP TODENOTE THE AMERICAN SOCIETY OF MECHANICALENGINEERS’ STANDARD FOR PRESSURE RELIEFVALVES |
| 146 | FIG. UG-129.2 OFFICIAL SYMBOL FOR STAMP TODENOTE THE AMERICAN SOCIETY OF MECHANICALENGINEERS’ STANDARD FOR NONRECLOSINGPRESSURE RELIEF DEVICES |
| 147 | UG- 130 CODE SYMBOL STAMP UG- 131 CERTIFICATION OF CAPACITY OF PRESSURE RELIEF DEVICES |
| 151 | UG- 132 CERTIFICATION OF CAPACITY OF PRESSURE RELIEF VALVES IN COMBINATION WITH NONRECLOSING PRESSURE RELIEF DEVICES |
| 152 | UG- 133 DETERMINATION OF PRESSURE RELIEVING REQUIREMENTS UG- 134 PRESSURE SETTINGS AND PERFORMANCE REQUIREMENTS |
| 153 | UG- 135 INSTALLATION UG- 136 MINIMUM REQUIREMENTS FOR PRESSURE RELIEF VALVES |
| 157 | UG- 137 MINIMUM REQUIREMENTS FOR RUPTURE DISK DEVICES |
| 159 | UG- 138 MINIMUM REQUIREMENTS FOR PIN DEVICES |
| 161 | UG- 140 OVERPRESSURE PROTECTION BY SYSTEM DESIGN |
| 163 | SUBSECTION B REQUIREMENTS PERTAINING TO METHODS OF FABRICATIONOF PRESSURE VESSELS PART UW REQUIREMENTS FOR PRESSURE VESSELS FABRICATED BY WELDING GENERAL UW- 1 SCOPE UW- 2 SERVICE RESTRICTIONS |
| 165 | UW- 3 WELDED JOINT CATEGORY MATERIALS UW- 5 GENERAL FIGURES FIG. UW-3 ILLUSTRATION OF WELDED JOINT LOCATIONS TYPICAL OF CATEGORIES A, B, C, AND D |
| 166 | DESIGN UW- 8 GENERAL UW- 9 DESIGN OF WELDED JOINTS FIG. UW-9 BUTT WELDING OF PLATES OF UNEQUAL THICKNESS |
| 167 | UW- 10 POSTWELD HEAT TREATMENT UW- 11 RADIOGRAPHIC AND ULTRASONIC EXAMINATION |
| 168 | UW- 12 JOINT EFFICIENCIES UW- 13 ATTACHMENT DETAILS |
| 169 | TABLES TABLE UW-12 MAXIMUM ALLOWABLE JOINT EFFICIENCIES FOR ARC AND GAS WELDED JOINTS |
| 171 | FIG. UW-13.1 HEADS ATTACHED TO SHELLS |
| 175 | FIG. UW-13.2 ATTACHMENT OF PRESSURE PARTS TO FLAT PLATES TO FORM A CORNER JOINT |
| 176 | FIG. UW-13.3 TYPICAL PRESSURE PARTS WITH BUTT WELDED HUBS |
| 177 | UW- 14 OPENINGS IN OR ADJACENT TO WELDS UW- 15 WELDED CONNECTIONS FIG. UW-13.4 NOZZLE NECKS ATTACHED TO PIPING OF LESSER WALL THICKNESS |
| 178 | UW- 16 MINIMUM REQUIREMENTS FOR ATTACHMENT WELDS AT OPENINGS |
| 179 | FIG. UW-16.1 SOME ACCEPTABLE TYPES OF WELDED NOZZLES AND OTHER CONNECTIONS TO SHELLS, HEADS, ETC. |
| 185 | TABLE UW-16.1 MINIMUM THICKNESS REQUIREDBY UW-16(f)(3)(a)(6) |
| 186 | FIG. UW-16.2 SOME ACCEPTABLE TYPES OF SMALL STANDARD FITTINGS |
| 188 | UW- 17 PLUG WELDS FIG. UW-16.3 SOME ACCEPTABLE TYPES OF SMALL BOLTING PADS |
| 189 | UW- 18 FILLET WELDS UW- 19 WELDED STAYED CONSTRUCTION FIG. UW-19.1 TYPICAL FORMS OF WELDED STAYBOLTS |
| 190 | UW- 20 TUBE- TO- TUBESHEET WELDS UW- 20.1 Scope. UW- 20.2 Definitions UW- 20.3 Nomenclature. FIG. UW-19.2 USE OF PLUG AND SLOT WELDS FORSTAYING PLATES |
| 191 | UW- 20.4 Full Strength Welds. FIG. UW-20.1 SOME ACCEPTABLE TYPES OF TUBE-TO-TUBESHEET STRENGTH WELDS |
| 192 | UW- 20.5 Partial Strength Welds. UW- 20.6 Weld Size Design Formulas. UW- 20.7 Clad Tubesheets UW- 21 FLANGE TO NOZZLE NECK WELDS FABRICATION UW- 26 GENERAL |
| 193 | UW- 27 WELDING PROCESSES |
| 194 | UW- 28 QUALIFICATION OF WELDING PROCEDURE UW- 29 TESTS OF WELDERS AND WELDING OPERATORS UW- 30 LOWEST PERMISSIBLE TEMPERATURES FOR WELDING |
| 195 | UW- 31 CUTTING, FITTING, AND ALIGNMENT UW- 32 CLEANING OF SURFACES TO BE WELDED UW- 33 ALIGNMENT TOLERANCE TABLE UW-33 |
| 196 | UW- 34 SPIN- HOLES UW- 35 FINISHED LONGITUDINAL AND CIRCUMFERENTIAL JOINTS UW- 36 FILLET WELDS UW- 37 MISCELLANEOUS WELDING REQUIREMENTS |
| 197 | UW- 38 REPAIR OF WELD DEFECTS UW- 39 PEENING |
| 198 | UW- 40 PROCEDURES FOR POSTWELD HEAT TREATMENT |
| 199 | UW- 41 SECTIONING OF WELDED JOINTS UW- 42 SURFACE WELD METAL BUILDUP |
| 200 | INSPECTION AND TESTS UW- 46 GENERAL UW- 47 CHECK OF WELDING PROCEDURE UW- 48 CHECK OF WELDER AND WELDING OPERATOR QUALIFICATIONS UW- 49 CHECK OF POSTWELD HEAT TREATMENT PRACTICE UW- 50 NONDESTRUCTIVE EXAMINATION OF WELDS ON PNEUMATICALLY TESTED VESSELS UW- 51 RADIOGRAPHIC EXAMINATION OF WELDED JOINTS |
| 201 | UW- 52 SPOT EXAMINATION OF WELDED JOINTS |
| 202 | UW- 53 TECHNIQUE FOR ULTRASONIC EXAMINATION OF WELDED JOINTS UW- 54 QUALIFICATION OF NONDESTRUCTIVE EXAMINATION PERSONNEL MARKING AND REPORTS UW- 60 GENERAL PRESSURE RELIEF DEVICES UW- 65 GENERAL |
| 203 | PART UF REQUIREMENTS FOR PRESSURE VESSELS FABRICATED BY FORGING GENERAL UF- 1 SCOPE MATERIALS UF- 5 GENERAL UF- 6 FORGINGS UF- 7 FORGED STEEL ROLLS USED FOR CORRUGATING PAPER MACHINERY DESIGN UF- 12 GENERAL |
| 204 | UF- 13 HEAD DESIGN UF- 25 CORROSION ALLOWANCE FABRICATION UF- 26 GENERAL UF- 27 TOLERANCES ON BODY FORGINGS UF- 28 METHODS OF FORMING FORGED HEADS UF- 29 TOLERANCE ON FORGED HEADS |
| 205 | UF- 30 LOCALIZED THIN AREAS UF- 31 HEAT TREATMENT UF- 32 WELDING FOR FABRICATION |
| 206 | UF- 37 REPAIR OF DEFECTS IN MATERIAL |
| 207 | UF- 38 REPAIR OF WELD DEFECTS UF- 43 ATTACHMENT OF THREADED NOZZLES TO INTEGRALLY FORGED NECKS AND THICKENED HEADS ON VESSELS INSPECTION AND TESTS UF- 45 GENERAL UF- 46 ACCEPTANCE BY INSPECTOR UF- 47 PARTS FORGING UF- 52 CHECK OF HEAT TREATMENT AND POSTWELD HEAT TREATMENT |
| 208 | UF- 53 TEST SPECIMENS UF- 54 TESTS AND RETESTS UF- 55 ULTRASONIC EXAMINATION MARKING AND REPORTS UF- 115 GENERAL PRESSURE RELIEF DEVICES UF- 125 GENERAL |
| 209 | PART UB REQUIREMENTS FOR PRESSURE VESSELS FABRICATED BY BRAZING GENERAL UB- 1 SCOPE UB- 2 ELEVATED TEMPERATURE UB- 3 SERVICE RESTRICTIONS MATERIALS UB- 5 GENERAL UB- 6 BRAZING FILLER METALS UB- 7 FLUXES AND ATMOSPHERES DESIGN UB- 9 GENERAL |
| 210 | UB- 10 STRENGTH OF BRAZED JOINTS UB- 11 QUALIFICATION OF BRAZED JOINTS FOR DESIGN TEMPERATURES UP TO THE MAXIMUM SHOWN IN COLUMN 1 OF TABLE UB- 2 UB- 12 QUALIFICATION OF BRAZED JOINTS FOR DESIGN TEMPERATURES IN THE RANGE SHOWN IN COLUMN 2 OF TABLE UB- 2 UB- 13 CORROSION UB- 14 JOINT EFFICIENCY FACTORS TABLES TABLE UB-2MAXIMUM DESIGN TEMPERATURES FOR BRAZING FILLER METAL |
| 211 | UB- 15 APPLICATION OF BRAZING FILLER METAL UB- 16 PERMISSIBLE TYPES OF JOINTS UB- 17 JOINT CLEARANCE FIGURES FIG. UB-14 EXAMPLES OF FILLER METAL APPLICATION |
| 212 | UB- 18 JOINT BRAZING PROCEDURE UB- 19 OPENINGS UB- 20 NOZZLES FIG. UB-16 SOME ACCEPTABLE TYPES OF BRAZED JOINTS TABLE UB-17RECOMMENDED JOINT CLEARANCES AT BRAZINGTEMPERATURE |
| 213 | UB- 21 BRAZED CONNECTIONS UB- 22 LOW TEMPERATURE OPERATION FABRICATION UB- 30 GENERAL UB- 31 QUALIFICATION OF BRAZING PROCEDURE UB- 32 QUALIFICATION OF BRAZERS AND BRAZING OPERATORS |
| 214 | UB- 33 BUTTSTRAPS UB- 34 CLEANING OF SURFACES TO BE BRAZED UB- 35 CLEARANCE BETWEEN SURFACES TO BE BRAZED UB- 36 POSTBRAZING OPERATIONS UB- 37 REPAIR OF DEFECTIVE BRAZING INSPECTION AND TESTS UB- 40 GENERAL UB- 41 INSPECTION DURING FABRICATION |
| 215 | UB- 42 PROCEDURE UB- 43 BRAZER AND BRAZING OPERATOR UB- 44 VISUAL EXAMINATION UB- 50 EXEMPTIONS MARKING AND REPORTS UB- 55 GENERAL PRESSURE RELIEF DEVICES UB- 60 GENERAL |
| 216 | SUBSECTION C REQUIREMENTS PERTAININGTO CLASSES OF MATERIALS PART UCS REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF CARBON AND LOW ALLOY STEELS1 GENERAL UCS- 1 SCOPE MATERIALS UCS- 5 GENERAL |
| 217 | UCS- 6 STEEL PLATES UCS- 7 STEEL FORGINGS UCS- 8 STEEL CASTINGS UCS- 9 STEEL PIPE AND TUBES UCS- 10 BOLT MATERIALS UCS- 11 NUTS AND WASHERS UCS- 12 BARS AND SHAPES |
| 218 | TABLES TABLE UCS-23 CARBON AND LOW ALLOY STEEL |
| 219 | DESIGN UCS- 16 GENERAL UCS- 19 WELDED JOINTS UCS- 23 MAXIMUM ALLOWABLE STRESS VALUES UCS- 27 SHELLS MADE FROM PIPE UCS- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UCS- 29 STIFFENING RINGS FOR SHELLS UNDER EXTERNAL PRESSURE UCS- 30 ATTACHMENT OF STIFFENING RINGS TO SHELL UCS- 33 FORMED HEADS, PRESSURE ON CONVEX SIDE UCS- 56 REQUIREMENTS FOR POSTWELD HEAT TREATMENT |
| 221 | TABLE UCS-56 POSTWELD HEAT TREATMENT REQUIREMENTS FOR CARBON AND LOW ALLOY STEELS |
| 229 | UCS- 57 RADIOGRAPHIC EXAMINATION LOW TEMPERATURE OPERATION UCS- 65 SCOPE TABLE UCS-56.1 ALTERNATIVE POSTWELD HEAT TREATMENTREQUIREMENTS FOR CARBONAND LOW ALLOY STEELS TABLE UCS-57 THICKNESS ABOVE WHICH FULL RADIOGRAPHICEXAMINATION OF BUTT WELDED JOINTS ISMANDATORY |
| 230 | UCS- 66 MATERIALS |
| 231 | FIGURES FIG. UCS-66 IMPACT TEST EXEMPTION CURVES |
| 234 | FIG. UCS-66M IMPACT TEST EXEMPTION CURVES |
| 235 | UCS- 67 IMPACT TESTS OF WELDING PROCEDURES |
| 236 | TABLE UCS-66TABULAR VALUES FOR FIG. UCS-66 AND FIG. UCS-66M |
| 238 | FIG. UCS-66.1 REDUCTION IN MINIMUM DESIGN METAL TEMPERATURE WITHOUT IMPACT TES |
| 239 | FIG. UCS-66.1M REDUCTION IN MINIMUM DESIGN METAL TEMPERATURE WITHOUT IMPACT TESTING |
| 240 | FIG. UCS-66.2 DIAGRAM OF UCS-66 RULES FOR DETERMINING LOWEST MIN |
| 241 | UCS- 68 DESIGN4 |
| 242 | FIG. UCS-66.3 SOME TYPICAL VESSEL DETAILS SHOWING THE GOVERNING THICKNESSESAS DEFINED IN UCS-66 |
| 245 | FABRICATION UCS- 75 GENERAL UCS- 79 FORMING SHELL SECTIONS AND HEADS UCS- 85 HEAT TREATMENT OF TEST SPECIMENS |
| 246 | INSPECTION AND TESTS UCS- 90 GENERAL MARKING AND REPORTS UCS- 115 GENERAL PRESSURE RELIEF DEVICES UCS- 125 GENERAL NONMANDATORY APPENDIX CS UCS- 150 GENERAL UCS- 151 CREEP- RUPTURE PROPERTIES OF CARBON STEELS UCS- 160 VESSELS OPERATING AT TEMPERATURES COLDER THAN THE MDMT STAMPED ON THE NAMEPLATE |
| 247 | PART UNF REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF NONFERROUS MATERIALS GENERAL UNF- 1 SCOPE UNF- 3 USES UNF- 4 CONDITIONS OF SERVICE MATERIALS UNF- 5 GENERAL UNF- 6 NONFERROUS PLATE UNF- 7 FORGINGS UNF- 8 CASTINGS UNF- 12 BOLT MATERIALS |
| 248 | UNF- 13 NUTS AND WASHERS UNF- 14 RODS, BARS, AND SHAPES UNF- 15 OTHER MATERIALS DESIGN UNF- 16 GENERAL UNF- 19 WELDED JOINTS UNF- 23 MAXIMUM ALLOWABLE STRESS VALUES |
| 249 | TABLES TABLE UNF-23.1 NONFERROUS METALS — ALUMINUM AND ALUMINUM ALLOY PRODUCTS TABLE UNF-23.2 NONFERROUS METALS — COPPER AND COPPER ALLOYS |
| 250 | TABLE UNF-23.3 NONFERROUS METALS — NICKEL, COBALT, AND HIGH NICKEL ALLOYS |
| 251 | TABLE UNF-23.4NONFERROUS METALS — TITANIUM AND TITANIUM ALLOYS |
| 252 | UNF- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UNF- 30 STIFFENING RINGS UNF- 33 FORMED HEADS, PRESSURE ON CONVEX SIDE UNF- 56 POSTWELD HEAT TREATMENT TABLE UNF-23.5NONFERROUS METALS — ZIRCONIUM |
| 253 | UNF- 57 RADIOGRAPHIC EXAMINATION UNF- 58 LIQUID PENETRANT EXAMINATION UNF- 65 LOW TEMPERATURE OPERATION FABRICATION UNF- 75 GENERAL |
| 254 | UNF- 77 FORMING SHELL SECTIONS AND HEADS UNF- 78 WELDING UNF- 79 REQUIREMENTS FOR POSTFABRICATION HEAT TREATMENT DUE TO STRAINING TABLE UNF-79POSTFABRICATION STRAIN LIMITS AND REQUIRED HEAT TREATMENT |
| 255 | INSPECTION AND TESTS UNF- 90 GENERAL UNF- 91 REQUIREMENTS FOR PENETRAMETER UNF- 95 WELDING TEST PLATES MARKING AND REPORTS UNF- 115 GENERAL PRESSURE RELIEF DEVICES UNF- 125 GENERAL VESSELS APPENDIX NF CHARACTERISTICS OF THE NONFERROUS MATERIALS ( INFORMATIVE AND NONMANDATORY) NF- 1 PURPOSE NF- 2 GENERAL |
| 256 | NF- 3 PROPERTIES NF- 4 MAGNETIC PROPERTIES NF- 5 ELEVATED TEMPERATURE EFFECTS NF- 6 LOW TEMPERATURE BEHAVIOR NF- 7 THERMAL CUTTING NF- 8 MACHINING NF- 9 GAS WELDING NF- 10 METAL ARC WELDING NF- 11 INERT GAS METAL ARC WELDING NF- 12 RESISTANCE WELDING NF- 13 CORROSION NF- 14 SPECIAL COMMENTS |
| 257 | PART UHA REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF HIGH ALLOY STEEL GENERAL UHA- 1 SCOPE UHA- 5 USES UHA- 6 CONDITIONS OF SERVICE UHA- 8 MATERIAL MATERIALS UHA- 11 GENERAL UHA- 12 BOLT MATERIALS |
| 258 | TABLES TABLE UHA-23HIGH ALLOY STEEL |
| 260 | UHA- 13 NUTS AND WASHERS DESIGN UHA- 20 GENERAL UHA- 21 WELDED JOINTS UHA- 23 MAXIMUM ALLOWABLE STRESS VALUES UHA- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UHA- 29 STIFFENING RINGS FOR SHELLS UNDER EXTERNAL PRESSURE |
| 261 | UHA- 30 ATTACHMENT OF STIFFENING RINGS TO SHELL UHA- 31 FORMED HEADS, PRESSURE ON CONVEX SIDE UHA- 32 REQUIREMENTS FOR POSTWELD HEAT TREATMENT UHA- 33 RADIOGRAPHIC EXAMINATION UHA- 34 LIQUID PENETRANT EXAMINATION FABRICATION UHA- 40 GENERAL UHA- 42 WELD METAL COMPOSITION |
| 262 | TABLE UHA-32POSTWELD HEAT TREATMENT REQUIREMENTS FOR HIGH ALLOY STEELS |
| 264 | UHA- 44 REQUIREMENTS FOR POSTFABRICATION HEAT TREATMENT DUE TO STRAINING INSPECTION AND TESTS UHA- 50 GENERAL UHA- 51 IMPACT TESTS |
| 265 | TABLE UHA-44POSTFABRICATION STRAIN LIMITS AND REQUIRED HEAT TREATMENT |
| 268 | UHA- 52 WELDED TEST PLATES MARKING AND REPORTS UHA- 60 GENERAL PRESSURE RELIEF DEVICES UHA- 65 GENERAL APPENDIX HA SUGGESTIONS ON THE SELECTION AND TREATMENT OF AUSTENITIC CHROMIUM– NICKEL AND FERRITIC AND MARTENSITIC HIGH CHROMIUM STEELS ( INFORMATIVE AND NONMANDATORY) UHA- 100 GENERAL UHA- 101 STRUCTURE UHA- 102 INTERGRANULAR CORROSION UHA- 103 STRESS CORROSION CRACKING UHA- 104 SIGMA PHASE EMBRITTLEMENT UHA- 105 HEAT TREATMENT OF AUSTENITIC CHROMIUM– NICKEL STEELS UHA- 107 DISSIMILAR WELD METAL UHA- 108 FABRICATION |
| 269 | UHA- 109 885° F ( 475° C) EMBRITTLEMENT |
| 270 | PART UCI REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF CAST IRON GENERAL UCI- 1 SCOPE UCI- 2 SERVICE RESTRICTIONS UCI- 3 PRESSURE– TEMPERATURE LIMITATIONS MATERIALS UCI- 5 GENERAL UCI- 12 BOLT MATERIALS DESIGN UCI- 16 GENERAL |
| 271 | UCI- 23 MAXIMUM ALLOWABLE STRESS VALUES UCI- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UCI- 29 DUAL METAL CYLINDERS UCI- 32 HEADS WITH PRESSURE ON CONCAVE SIDE TABLES TABLE UCI-23 MAXIMUM ALLOWABLE STRESS VALUES IN TENSION FOR CAST IRON |
| 272 | UCI- 33 HEADS WITH PRESSURE ON CONVEX SIDE UCI- 35 SPHERICALLY SHAPED COVERS ( HEADS) UCI- 36 OPENINGS AND REINFORCEMENTS UCI- 37 CORNERS AND FILLETS FABRICATION UCI- 75 GENERAL UCI- 78 REPAIRS IN CAST IRON MATERIALS TABLE UCI-78.1 |
| 273 | INSPECTION AND TESTS UCI- 90 GENERAL UCI- 99 STANDARD HYDROSTATIC TEST UCI- 101 HYDROSTATIC TEST TO DESTRUCTION TABLE UCI-78.2 |
| 274 | MARKING AND REPORTS UCI- 115 GENERAL PRESSURE RELIEF DEVICES UCI- 125 GENERAL |
| 275 | PART UCL REQUIREMENTS FOR WELDED PRESSURE VESSELS CONSTRUCTED OF MATERIAL WITH CORROSION RESISTANT INTEGRAL CLADDING, WELD METAL OVERLAY CLADDING, OR WITH APPLIED LININGS GENERAL UCL- 1 SCOPE UCL- 2 METHODS OF FABRICATION UCL- 3 CONDITIONS OF SERVICE MATERIALS UCL- 10 GENERAL UCL- 11 INTEGRAL AND WELD METAL OVERLAY CLAD MATERIAL |
| 276 | UCL- 12 LINING DESIGN UCL- 20 GENERAL UCL- 23 MAXIMUM ALLOWABLE STRESS VALUES |
| 277 | UCL- 24 MAXIMUM ALLOWABLE WORKING TEMPERATURE UCL- 25 CORROSION OF CLADDING OR LINING MATERIAL UCL- 26 THICKNESS OF SHELLS AND HEADS UNDER EXTERNAL PRESSURE UCL- 27 LOW TEMPERATURE OPERATIONS FABRICATION UCL- 30 GENERAL UCL- 31 JOINTS IN INTEGRAL OR WELD METAL OVERLAY CLADDING AND APPLIED LININGS UCL- 32 WELD METAL COMPOSITION |
| 278 | UCL- 33 INSERTED STRIPS IN CLAD MATERIAL UCL- 34 POSTWELD HEAT TREATMENT UCL- 35 RADIOGRAPHIC EXAMINATION UCL- 36 EXAMINATION OF CHROMIUM STAINLESS STEEL CLADDING OR LINING |
| 279 | UCL- 40 WELDING PROCEDURES UCL- 42 ALLOY WELDS IN BASE METAL UCL- 46 FILLET WELDS INSPECTION AND TESTS UCL- 50 GENERAL UCL- 51 TIGHTNESS OF APPLIED LINING UCL- 52 HYDROSTATIC TEST MARKING AND REPORTS UCL- 55 GENERAL PRESSURE RELIEF DEVICES UCL- 60 GENERAL |
| 280 | PART UCD REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF CAST DUCTILE IRON GENERAL UCD- 1 SCOPE UCD- 2 SERVICE RESTRICTIONS UCD- 3 PRESSURE– TEMPERATURE LIMITATIONS MATERIALS UCD- 5 GENERAL UCD- 12 BOLT MATERIALS DESIGN UCD- 16 GENERAL |
| 281 | UCD- 23 MAXIMUM ALLOWABLE STRESS VALUES UCD- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UCD- 32 HEADS WITH PRESSURE ON CONCAVE SIDE UCD- 33 HEADS WITH PRESSURE ON CONVEX SIDE UCD- 35 SPHERICALLY SHAPED COVERS ( HEADS) UCD- 36 OPENINGS AND REINFORCEMENTS UCD- 37 CORNERS AND FILLETS TABLES TABLE UCD-23MAXIMUM ALLOWABLE STRESS VALUES IN TENSIONFOR CAST DUCTILE IRON, ksi (MPa) |
| 282 | FABRICATION UCD- 75 GENERAL UCD- 78 REPAIRS IN CAST DUCTILE IRON MATERIAL TABLE UCD-78.1 TABLE UCD-78.2 |
| 283 | INSPECTION AND TESTS UCD- 90 GENERAL UCD- 99 STANDARD HYDROSTATIC TEST UCD- 101 HYDROSTATIC TEST TO DESTRUCTION MARKING AND REPORTS UCD- 115 GENERAL PRESSURE RELIEF DEVICES UCD- 125 GENERAL |
| 284 | PART UHT REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF FERRITIC STEELS WITH TENSILE PROPERTIES ENHANCED BY HEAT TREATMENT GENERAL UHT- 1 SCOPE MATERIALS UHT- 5 GENERAL UHT- 6 TEST REQUIREMENTS |
| 285 | DESIGN UHT- 16 GENERAL UHT- 17 WELDED JOINTS FIGURES FIG. UHT-6.1 CHARPY V-NOTCH IMPACT TESTREQUIREMENTS FIG. UHT-6.1M CHARPY V-NOTCH IMPACT TESTREQUIREMENTS |
| 286 | UHT- 18 NOZZLES UHT- 19 CONICAL SECTIONS UHT- 20 JOINT ALIGNMENT UHT- 23 MAXIMUM ALLOWABLE STRESS VALUES |
| 287 | FIG. UHT-18.1 ACCEPTABLE WELDED NOZZLE ATTACHMENT READILY RADIOGRAPHED TO CODE STANDARDS |
| 288 | FIG. UHT-18.2 ACCEPTABLE FULL PENETRATION WELDED NOZZLE ATTACHMENTS RADIOGRAPHABLE WITHDIFFICULTY AND GENERALLY REQUIRING SPECIAL TECHNIQUES INCLUDING MULTIPLE EXPOSURES TO TAKECARE OF THICKNESS VARIATIONS |
| 289 | UHT- 25 CORROSION ALLOWANCE UHT- 27 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE UHT- 28 STRUCTURAL ATTACHMENTS AND STIFFENING RINGS UHT- 29 STIFFENING RINGS FOR SHELLS UNDER EXTERNAL PRESSURE UHT- 30 ATTACHMENT OF STIFFENING RINGS TO SHELLS UHT- 32 FORMED HEADS, PRESSURE ON CONCAVE SIDE UHT- 33 FORMED HEADS, PRESSURE ON CONVEX SIDE TABLES TABLE UHT-23 FERRITIC STEELS WITH PROPERTIES ENHANCED BY HEAT TREATMENT |
| 290 | UHT- 34 HEMISPHERICAL HEADS UHT- 40 MATERIALS HAVING DIFFERENT COEFFICIENTS OF EXPANSION UHT- 56 POSTWELD HEAT TREATMENT UHT- 57 EXAMINATION |
| 291 | TABLE UHT-56 POSTWELD HEAT TREATMENT REQUIREMENTS FOR MATERIALS IN TABLE UHT-23 |
| 292 | FABRICATION UHT- 75 GENERAL UHT- 79 FORMING SHELL SECTIONS AND HEADS UHT- 80 HEAT TREATMENT UHT- 81 HEAT TREATMENT VERIFICATION TESTS |
| 293 | UHT- 82 WELDING |
| 294 | UHT- 83 METHODS OF METAL REMOVAL UHT- 84 WELD FINISH UHT- 85 STRUCTURAL AND TEMPORARY WELDS UHT- 86 MARKING ON PLATES AND OTHER MATERIALS INSPECTION AND TESTS UHT- 90 GENERAL MARKING AND REPORTS UHT- 115 GENERAL |
| 295 | PRESSURE RELIEF DEVICES UHT- 125 GENERAL |
| 296 | PART ULW REQUIREMENTS FOR PRESSURE VESSELS FABRICATED BY LAYERED CONSTRUCTION INTRODUCTION ULW- 1 SCOPE ULW- 2 NOMENCLATURE MATERIAL ULW- 5 GENERAL DESIGN ULW- 16 GENERAL |
| 297 | FIGURES FIG. ULW-2.1 SOME ACCEPTABLE LAYERED SHELL TYPES |
| 298 | FIG. ULW-2.2 SOME ACCEPTABLE LAYERED HEAD TYPES |
| 299 | ULW- 17 DESIGN OF WELDED JOINTS |
| 300 | FIG. ULW-17.1 TRANSITIONS OF LAYERED SHELL SECTION |
| 301 | FIG. ULW-17.2 SOME ACCEPTABLE SOLID HEAD ATTACHMENTS TO LAYERED SHELL SECTIONS |
| 303 | FIG. ULW-17.3 SOME ACCEPTABLE FLAT HEADS AND TUBESHEETS WITH HUBS JOININGLAYERED SHELL SECTIONS |
| 304 | FIG. ULW-17.4 SOME ACCEPTABLE FLANGES FOR LAYERED SHELLS |
| 305 | FIG. ULW-17.5 SOME ACCEPTABLE LAYERED HEAD ATTACHMENTS TO LAYERED SHELLS |
| 306 | FIG. ULW-17.6 SOME ACCEPTABLE WELDED JOINTS OF LAYERED-TO-LAYERED ANDLAYERED-TO-SOLID SECTIONS |
| 307 | ULW- 18 NOZZLE ATTACHMENTS AND OPENING REINFORCEMENT ULW- 20 WELDED JOINT EFFICIENCY ULW- 22 ATTACHMENTS ULW- 26 POSTWELD HEAT TREATMENT |
| 308 | FIG. ULW-18.1 SOME ACCEPTABLE NOZZLE ATTACHMENTS IN LAYERED SHELL SECTIONS |
| 310 | FIG. ULW-22 SOME ACCEPTABLE SUPPORTS FOR LAYERED VESSELS |
| 311 | WELDING ULW- 31 WELDED JOINTS ULW- 32 WELDING PROCEDURE QUALIFICATION ULW- 33 PERFORMANCE QUALIFICATION NONDESTRUCTIVE EXAMINATION OF WELDED JOINTS ULW- 50 GENERAL ULW- 51 INNER SHELLS AND INNER HEADS ULW- 52 LAYERS — WELDED JOINTS |
| 312 | FIG. ULW-32.1 SOLID-TO-LAYERED AND LAYERED-TO-LAYERED TEST PLATES |
| 313 | FIG. ULW-32.2 FIG. ULW-32.3 FIG. ULW-32.4 |
| 314 | ULW- 53 LAYERS — STEP WELDED GIRTH JOINTS ULW- 54 BUTT JOINTS ULW- 55 FLAT HEAD AND TUBESHEET WELD JOINTS ULW- 56 NOZZLE AND COMMUNICATING CHAMBERS WELD JOINTS |
| 315 | ULW- 57 RANDOM SPOT EXAMINATION AND REPAIRS OF WELD FIG. ULW-54.1 |
| 316 | FIG. ULW-54.2 |
| 317 | FABRICATION ULW- 75 GENERAL ULW- 76 VENT HOLES ULW- 77 CONTACT BETWEEN LAYERS ULW- 78 ALTERNATIVE TO MEASURING CONTACT BETWEEN LAYERS DURING CONSTRUCTION |
| 318 | INSPECTION AND TESTING ULW- 90 GENERAL MARKING AND REPORTS ULW- 115 GENERAL PRESSURE RELIEF DEVICES ULW- 125 GENERAL FIG. ULW-77 |
| 319 | PART ULT ALTERNATIVE RULES FOR PRESSURE VESSELS CONSTRUCTED OF MATERIALS HAVING HIGHER ALLOWABLE STRESSES AT LOW TEMPERATURE GENERAL ULT- 1 SCOPE ULT- 2 CONDITIONS OF SERVICE ULT- 5 GENERAL |
| 320 | DESIGN ULT- 16 GENERAL ULT- 17 WELDED JOINTS ULT- 18 NOZZLES AND OTHER CONNECTIONS ULT- 23 MAXIMUM ALLOWABLE STRESS VALUES ULT- 27 THICKNESS OF SHELLS ULT- 28 THICKNESS OF SHELLS UNDER EXTERNAL PRESSURE ULT- 29 STIFFENING RINGS FOR SHELLS UNDER EXTERNAL PRESSURE ULT- 30 STRUCTURAL ATTACHMENTS |
| 321 | TABLES TABLE ULT-23MAXIMUM ALLOWABLE STRESS VALUES IN TENSION FOR 5%, 8%, AND 9% NICKEL STEELS, TYPE 304 STAINLESS STEEL,AND 5083-O ALUMINUM ALLOY AT CRYOGENIC TEMPERATURES FOR WELDED AND NONWELDED CONSTRUCTION |
| 325 | ULT- 56 POSTWELD HEAT TREATMENT ULT- 57 EXAMINATION FABRICATION ULT- 75 GENERAL ULT- 79 FORMING SHELL SECTIONS AND HEADS ULT- 82 WELDING ULT- 86 MARKING ON PLATE AND OTHER MATERIALS INSPECTION AND TESTS ULT- 90 GENERAL ULT- 99 HYDROSTATIC TEST |
| 326 | TABLE ULT-82MINIMUM TENSILE STRENGTH REQUIREMENTS FOR WELDING PROCEDURE QUALIFICATION TESTSON TENSION SPECIMENS CONFORMING TO QW-462.1 |
| 328 | ULT- 100 PNEUMATIC TEST MARKING AND REPORTS ULT- 115 GENERAL FIG. ULT-82 WELD METAL DELTA FERRITE CONTENT |
| 329 | PRESSURE RELIEF DEVICES ULT- 125 GENERAL |
| 330 | PART UHX RULES FOR SHELL- AND- TUBE HEAT EXCHANGERS UHX- 1 SCOPE UHX- 2 MATERIALS AND METHODS OF FABRICATION UHX- 3 TERMINOLOGY UHX- 3.1 U- Tube Heat Exchanger UHX- 4 DESIGN UHX- 9 TUBESHEET FLANGED EXTENSION UHX- 9.1 Scope |
| 331 | FIGURES FIG. UHX-3 TERMINOLOGY OF HEAT EXCHANGER COMPONENTS |
| 332 | UHX- 10 GENERAL CONDITIONS OF APPLICABILITY FOR TUBESHEETS UHX- 11 TUBESHEET CHARACTERISTICS UHX- 11.1 Scope |
| 333 | FIG. UHX-9 SOME REPRESENTATIVE CONFIGURATIONS DESCRIBING THE MINIMUM REQUIRED THICKNESSOF THE TUBESHEET FLANGED EXTENSION, hr FIG. UHX-10 INTEGRAL CHANNELS |
| 335 | FIG. UHX-11.1 TUBESHEET GEOMETRY |
| 336 | FIG. UHX-11.2 TYPICAL UNTUBED LANE CONFIGURATIONS |
| 337 | UHX- 12 RULES FOR THE DESIGN OF U- TUBE TUBESHEETS |
| 338 | FIG. UHX-11.3 CURVES FOR THE DETERMINATION OF E*/E AND �* (EQUILATERAL TRIANGULARPATTERN) |
| 340 | FIG. UHX-12.1 U-TUBE TUBESHEET CONFIGURATIONS |
| 341 | FIG. UHX-12.2 TUBE LAYOUT PERIMETER |
| 345 | UHX- 13 RULES FOR THE DESIGN OF FIXED TUBESHEETS UHX- 13.1 Scope |
| 346 | FIG. UHX-13.1 FIXED TUBESHEET CONFIGURATIONS |
| 350 | TABLES TABLE UHX-13.1 FORMULAS FOR DETERMINATION OF Zd, Zv, Zm, Zw, AND Fm |
| 351 | TABLE UHX-13.2 FORMULAS FOR THE DETERMINATION OF Ft,min AND Ft,max |
| 352 | FIG. UHX-13.2 Zd , Zv , Zw , and Zm VERSUS Xa |
| 353 | FIG. UHX-13.3-1 Fm VERSUS Xa (0.0 ≤ Q3 ≤ 0.8) |
| 354 | FIG. UHX-13.3-2 Fm VERSUS Xa (−0.8 ≤ Q3 ≤ 0.0) |
| 356 | FIG. UHX-13.4 SHELL WITH INCREASED THICKNESS ADJACENT TO THE TUBESHEETS |
| 359 | UHX- 14 RULES FOR THE DESIGN OF FLOATING TUBESHEETS UHX- 14.1 Scope |
| 360 | FIG. UHX-14.1 FLOATING TUBESHEET HEAT EXCHANGERS |
| 361 | FIG. UHX-14.2 STATIONARY TUBESHEET CONFIGURATIONS |
| 362 | FIG. UHX-14.3 FLOATING TUBESHEET CONFIGURATIONS |
| 370 | UHX- 16 BELLOWS EXPANSION JOINTS UHX- 17 FLANGED- AND- FLUED OR FLANGED- ONLY EXPANSION JOINTS UHX- 18 PRESSURE TEST REQUIREMENTS UHX- 19 HEAT EXCHANGER MARKING AND REPORTS UHX- 19.1 Required Marking |
| 371 | TABLE UHX-17 FLANGED-AND-FLUED OR FLANGED-ONLY EXPANSION JOINT LOAD CASES ANDSTRESS LIMITS |
| 372 | UHX- 20 EXAMPLES |
| 380 | TABLE UHX-20.2.1-1 SUMMARY TABLE FOR STEPS 7 AND 8 ELASTIC ITERATION TUBESHEET RESULTS |
| 382 | TABLE UHX-20.2.2-1 SUMMARY TABLE FOR STEPS 7 AND 8, TUBESHEET RESULTS |
| 385 | TABLE UHX-20.2.3-1 SUMMARY TABLE FOR STEP 6 TABLE UHX-20.2.3-2 SUMMARY TABLE FOR STEPS 7 AND 8, ELASTIC ITERATION |
| 386 | TABLE UHX-20.2.3-3 SUMMARY TABLE FOR STEP 10, SHELL AND CHANNEL STRESS RESULTS |
| 393 | PART UIG REQUIREMENTS FOR PRESSURE VESSELS CONSTRUCTED OF IMPREGNATED GRAPHITE NONMANDATORY INTRODUCTION GENERAL UIG- 1 SCOPE |
| 394 | UIG- 2 EQUIPMENT AND SERVICE LIMITATIONS UIG- 3 TERMINOLOGY MATERIALS UIG- 5 RAW MATERIAL CONTROL UIG- 6 CERTIFIED MATERIAL CONTROL |
| 395 | UIG- 7 ADDITIONAL PROPERTIES UIG- 8 TOLERANCES FOR IMPREGNATED GRAPHITE TUBES DESIGN UIG- 22 LOADINGS UIG- 23 MAXIMUM ALLOWABLE STRESS VALUES FOR CERTIFIED MATERIAL UIG- 27 THICKNESS OF CYLINDRICAL SHELLS MADE OF CERTIFIED MATERIALS UNDER INTERNAL PRESSURE TABLES TABLE UIG-6-1 PROPERTIES OF CERTIFIED MATERIAL |
| 396 | UIG- 28 EXTERNAL PRESSURE UIG- 29 EULER BUCKLING OF EXTRUDED GRAPHITE TUBES UIG- 34 CALCULATING FLAT HEADS, COVERS, AND TUBESHEETS |
| 397 | FIGURES FIG. UIG-34-1 TYPICAL GRAPHITE HEAT EXCHANGER |
| 398 | UIG- 36 OPENINGS AND REINFORCEMENTS UIG- 45 NOZZLE NECK THICKNESS UIG- 60 LETHAL SERVICE FIG. UIG-34-2 CONFIGURATION G STATIONARYTUBESHEET FIG. UIG-34-3 CONFIGURATION G FLOATINGTUBESHEET |
| 399 | FIG. UIG-36-1 UNACCEPTABLE NOZZLE ATTACHMENT DETAILS |
| 400 | FIG. UIG-36-2 SOME ACCEPTABLE NOZZLE ATTACHMENT DETAILS IN IMPREGNATED GRAPHITE PRESSUREVESSELS |
| 404 | FABRICATION UIG- 75 GENERAL REQUIREMENTS UIG- 76 PROCEDURE AND PERSONNEL QUALIFICATION UIG- 77 CERTIFIED MATERIAL SPECIFICATION |
| 405 | UIG- 78 CERTIFIED CEMENT SPECIFICATION UIG- 79 CERTIFIED CEMENTING PROCEDURE SPECIFICATION FIG. UIG-76-1 TENSION TEST SPECIMEN |
| 406 | UIG- 80 CEMENTING TECHNICIAN QUALIFICATION UIG- 81 REPAIR OF MATERIALS FIG. UIG-76-2 CEMENT MATERIAL TENSION TEST SPECIMEN |
| 407 | FIG. UIG-76-3 TUBE TO TUBESHEET TENSION TEST SPECIMEN |
| 408 | FIG. UIG-76-4 TUBE CEMENT JOINT TENSION TEST SPECIMEN |
| 409 | FIG. UIG-76-5 TUBE TENSION TEST SPECIMEN |
| 410 | UIG- 84 REQUIRED TESTS TABLE UIG-84-1 TEST FREQUENCY FOR CERTIFIED MATERIALS |
| 411 | INSPECTION AND TESTS UIG- 90 GENERAL UIG- 95 VISUAL EXAMINATION UIG- 96 QUALIFICATION OF VISUAL EXAMINATION PERSONNEL UIG- 97 ACCEPTANCE STANDARDS AND DOCUMENTATION UIG- 99 PRESSURE TESTS UIG- 112 QUALITY CONTROL REQUIREMENTS |
| 412 | UIG- 115 MARKINGS AND REPORTS UIG- 116 REQUIRED MARKINGS UIG- 120 DATA REPORTS UIG- 121 RECORDS UIG- 125 PRESSURE RELIEF DEVICES |
| 425 | MANDATORY APPENDICES MANDATORY APPENDIX 1 SUPPLEMENTARY DESIGN FORMULAS |
| 446 | MANDATORY APPENDIX 2 RULES FOR BOLTED FLANGE CONNECTIONS WITH RING TYPE GASKETS |
| 468 | MANDATORY APPENDIX 3 DEFINITIONS |
| 471 | MANDATORY APPENDIX 4 ROUNDED INDICATIONS CHARTS ACCEPTANCE STANDARD FOR RADIOGRAPHICALLY DETERMINED ROUNDED INDICATIONS IN WELDS |
| 480 | MANDATORY APPENDIX 5 FLANGED- AND- FLUED OR FLANGED- ONLY EXPANSION JOINTS |
| 483 | MANDATORY APPENDIX 6 METHODS FOR MAGNETIC PARTICLE EXAMINATION ( MT) |
| 485 | MANDATORY APPENDIX 7 EXAMINATION OF STEEL CASTINGS |
| 488 | MANDATORY APPENDIX 8 METHODS FOR LIQUID PENETRANT EXAMINATION ( PT) |
| 490 | MANDATORY APPENDIX 9 JACKETED VESSELS |
| 499 | MANDATORY APPENDIX 10 QUALITY CONTROL SYSTEM |
| 502 | MANDATORY APPENDIX 11 CAPACITY CONVERSIONS FOR SAFETY VALVES |
| 506 | MANDATORY APPENDIX 12 ULTRASONIC EXAMINATION OF WELDS ( UT) |
| 507 | MANDATORY APPENDIX 13 VESSELS OF NONCIRCULAR CROSS SECTION |
| 547 | MANDATORY APPENDIX 14 INTEGRAL FLAT HEADS WITH A LARGE, SINGLE, CIRCULAR, CENTRALLY LOCATED OPENING |
| 554 | MANDATORY APPENDIX 16 SUBMITTAL OF TECHNICAL INQUIRIES TO THE BOILER AND PRESSURE VESSEL COMMITTEE |
| 556 | MANDATORY APPENDIX 17 DIMPLED OR EMBOSSED ASSEMBLIES |
| 566 | MANDATORY APPENDIX 18 ADHESIVE ATTACHMENT OF NAMEPLATES |
| 567 | MANDATORY APPENDIX 19 ELECTRICALLY HEATED OR GAS FIRED JACKETED STEAM KETTLES |
| 568 | MANDATORY APPENDIX 20 HUBS MACHINED FROM PLATE |
| 569 | MANDATORY APPENDIX 21 JACKETED VESSELS CONSTRUCTED OF WORK- HARDENED NICKEL |
| 570 | MANDATORY APPENDIX 22 INTEGRALLY FORGED VESSELS |
| 572 | MANDATORY APPENDIX 23 EXTERNAL PRESSURE DESIGN OF COPPER, COPPER ALLOY, AND TITANIUM ALLOY CONDENSER AND HEAT EXCHANGER TUBES WITH INTEGRAL FINS |
| 574 | MANDATORY APPENDIX 24 DESIGN RULES FOR CLAMP CONNECTIONS |
| 580 | MANDATORY APPENDIX 25 ACCEPTANCE OF TESTING LABORATORIES AND AUTHORIZED OBSERVERS FOR CAPACITY CERTIFICATION OF PRESSURE RELIEF VALVES |
| 582 | MANDATORY APPENDIX 26 BELLOWS EXPANSION JOINTS |
| 608 | MANDATORY APPENDIX 27 ALTERNATIVE REQUIREMENTS FOR GLASS- LINED VESSELS |
| 611 | MANDATORY APPENDIX 28 ALTERNATIVE CORNER WELD JOINT DETAIL FOR BOX HEADERS FOR AIR- COOLED HEAT EXCHANGERS |
| 614 | MANDATORY APPENDIX 30 RULES FOR DRILLED HOLES NOT PENETRATING THROUGH VESSEL WALL |
| 616 | MANDATORY APPENDIX 31 RULES FOR Cr– Mo STEELS WITH ADDITIONAL REQUIREMENTS FOR WELDING AND HEAT TREATMENT |
| 619 | MANDATORY APPENDIX 32 LOCAL THIN AREAS IN CYLINDRICAL SHELLS AND IN SPHERICAL SEGMENTS OF SHELLS |
| 622 | MANDATORY APPENDIX 33 STANDARD UNITS FOR USE IN EQUATIONS |
| 623 | MANDATORY APPENDIX 34 REQUIREMENTS FOR USE OF HIGH SILICON STAINLESS STEELS FOR PRESSURE VESSELS |
| 625 | MANDATORY APPENDIX 35 RULES FOR MASS- PRODUCTION OF PRESSURE VESSELS |
| 628 | MANDATORY APPENDIX 36 STANDARD TEST METHOD FOR DETERMINING THE FLEXURAL STRENGTH OF CERTIFIED MATERIALS USING THREE- POINT LOADING |
| 630 | MANDATORY APPENDIX 37 STANDARD TEST METHOD FOR DETERMINING THE TENSILE STRENGTH OF CERTIFIED IMPREGNATED GRAPHITE MATERIALS |
| 632 | MANDATORY APPENDIX 38 STANDARD TEST METHOD FOR COMPRESSIVE STRENGTH OF IMPREGNATED GRAPHITE |
| 634 | MANDATORY APPENDIX 39 TESTING THE COEFFICIENT OF PERMEABILITY OF IMPREGNATED GRAPHITE |
| 636 | MANDATORY APPENDIX 40 THERMAL EXPANSION TEST METHOD FOR GRAPHITE AND IMPREGNATED GRAPHITE |
| 639 | NONMANDATORY APPENDICES NONMANDATORY APPENDIX A BASIS FOR ESTABLISHING ALLOWABLE LOADS FOR TUBE- TO- TUBESHEET JOINTS |
| 645 | NONMANDATORY APPENDIX C SUGGESTED METHODS FOR OBTAINING THE OPERATING TEMPERATURE OF VESSEL WALLS IN SERVICE |
| 646 | NONMANDATORY APPENDIX D SUGGESTED GOOD PRACTICE REGARDING INTERNAL STRUCTURES |
| 647 | NONMANDATORY APPENDIX E SUGGESTED GOOD PRACTICE REGARDING CORROSION ALLOWANCE1 |
| 648 | NONMANDATORY APPENDIX F SUGGESTED GOOD PRACTICE REGARDING LININGS |
| 649 | NONMANDATORY APPENDIX G SUGGESTED GOOD PRACTICE REGARDING PIPING REACTIONS AND DESIGN OF SUPPORTS AND ATTACHMENTS |
| 651 | NONMANDATORY APPENDIX H GUIDANCE TO ACCOMMODATE LOADINGS PRODUCED BY DEFLAGRATION |
| 653 | NONMANDATORY APPENDIX K SECTIONING OF WELDED JOINTS |
| 655 | NONMANDATORY APPENDIX L EXAMPLES ILLUSTRATING THE APPLICATION OF CODE FORMULAS AND RULES |
| 704 | NONMANDATORY APPENDIX M INSTALLATION AND OPERATION |
| 710 | NONMANDATORY APPENDIX P BASIS FOR ESTABLISHING ALLOWABLE STRESS VALUES FOR UCI, UCD, AND ULT MATERIALS |
| 711 | NONMANDATORY APPENDIX R PREHEATING |
| 713 | NONMANDATORY APPENDIX S DESIGN CONSIDERATIONS FOR BOLTED FLANGE CONNECTIONS |
| 715 | NONMANDATORY APPENDIX T TEMPERATURE PROTECTION |
| 716 | NONMANDATORY APPENDIX W GUIDE FOR PREPARING MANUFACTURER’S DATA REPORTS |
| 735 | NONMANDATORY APPENDIX Y FLAT FACE FLANGES WITH METAL- TO- METAL CONTACT OUTSIDE THE BOLT CIRCLE |
| 748 | NONMANDATORY APPENDIX DD GUIDE TO INFORMATION APPEARING ON CERTIFICATE OF AUTHORIZATION ( SEE FIG. DD- 1) |
| 751 | NONMANDATORY APPENDIX EE HALF- PIPE JACKETS |
| 756 | NONMANDATORY APPENDIX FF GUIDE FOR THE DESIGN AND OPERATION OF QUICK-ACTUATING ( QUICK- OPENING) CLOSURES |
| 759 | NONMANDATORY APPENDIX GG GUIDANCE FOR THE USE OF U. S. CUSTOMARY AND SI UNITS IN THE ASME BOILER AND PRESSURE VESSEL CODE |
| 762 | NONMANDATORY APPENDIX HH TUBE EXPANDING PROCEDURES AND QUALIFICATION |
| 772 | NONMANDATORY APPENDIX JJ FLOWCHARTS ILLUSTRATING IMPACT TESTING REQUIREMENTS AND EXEMPTIONS FROM IMPACT TESTING BY THE RULES OF UHA- 51 |
| 779 | NONMANDATORY APPENDIX KK GUIDE FOR PREPARING USER’S DESIGN REQUIREMENTS |
| 785 | NONMANDATORY APPENDIX LL GRAPHICAL REPRESENTATIONS OF |
| 788 | NONMANDATORY APPENDIX MM ALTERNATIVE MARKING AND STAMPING OF GRAPHITE PRESSURE VESSELS |
| 789 | INDEX |
| 797 | INTERPRETATIONS Volume 60 |
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ASME BPVC III 1 A 2001
ASME BPVC – III – 1 – A -2001 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 A 2010
ASME BPVC – III – 1 – A -2010 BPVC Section III, Rules for Construction…
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ASME BPVC VIII 1 2013
ASME BPVC – VIII – 1 -2013 BPVC Section VIII, Division 1: Rules for Construction…
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ASME BPVC III 1 NB 2017
ASME BPVC – III – 1 – NB -2017 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 A 2013
ASME BPVC – III – 1 – A -2013 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 ND 2010
ASME BPVC – III – 1 – ND -2010 BPVC Section III, Rules for Constructions…
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ASME BPVC III 1 NF 2019
ASME BPVC – III – 1 – NF -2019 BPVC Section III, Rules for Construction…
-
ASME BPVC VIII 1 2013 SPA
ASME BPVC – VIII – 1 -2013 BPVC Section VIII-Rules for Construction of Pressure Vessels…
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ASME BPVC III 1 NH 2001
ASME BPVC – III – 1 – NH -2001 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 NH 2015
ASME BPVC – III – 1 – NH -2015 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 NG 2015
ASME BPVC – III – 1 – NG -2015 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 ND 2001
ASME BPVC – III – 1 – ND -2001 BPVC Section III, Rules for Constructions…
-
ASME BPVC VIII 1 2017
ASME BPVC – VIII – 1 -2017 BPVC Section VIII-Rules for Construction of Pressure Vessels…
-
ASME BPVC III 1 NH 2013
ASME BPVC – III – 1 – NH -2013 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 NG 2010
ASME BPVC – III – 1 – NG -2010 BPVC Section III, Rules for Construction…
-
ASME BPVC VIII 1 2019
ASME BPVC – VIII – 1 -2019 BPVC Section VIII-Rules for Construction of Pressure Vessels…
-
ASME BPVC III 1 A 2015
ASME BPVC – III – 1 – A -2015 BPVC Section III, Rules for Construction…
-
ASME BPVC III 1 NF 2017
ASME BPVC – III – 1 – NF -2017 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 NC 2019
ASME BPVC – III – 1 – NC -2019 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 A 2017
ASME BPVC – III – 1 – A -2017 BPVC Section III, Rules for Construction…
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ASME BPVC III 1 NG 2017
ASME BPVC – III – 1 – NG -2017 BPVC Section III, Rules for Construction…
