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ASME BPVC XII 2017

ASME BPVC XII 2017

$377.00

ASME BPVC – XII -2017 BPVC Section XII-Rules for Construction and Continued Service of Transport Tanks

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ASME 2017
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PDF Catalog

PDF Pages PDF Title
51 TG-130 Product Standards Referenced by This Section
65 TM-130.2-1 Carbon and Low Alloy Steels
68 TM-130.2-2 High Alloy Steels
74 TM-130.2-3 Aluminum and Aluminum Alloy Products
75 TM-130.2-4 Copper and Copper Alloys
76 TM-130.2-5 Nickel and Nickel Alloys
78 TM-130.2-6 Ferritic Steels With Tensile Properties Enhanced by Heat Treatment
79 TM-130.2-7 Titanium and Titanium Alloys
84 TM-210.1 Test Procedures
TM-210.2 Test Specimens
TM-210.2 Simple Beam Impact Test Specimens (Charpy‐Type Test)
TM-210.1 Impact Test Temperature Differential
85 TM-210.3 Standard Product Forms
TM-210.4 Certification of Compliance With Impact Test Requirements
TM-220.1 Minimum Energy Requirements forTable TM-130.2-1 Materials WithSpecified Minimum Tensile StrengthLess Than 655 MPa (95 ksi)
TM-220.2 Lateral Expansion Requirements forAll Other Steels
TM-220.3 Impact Test Temperature Criteria
86 TM-220.1 Charpy V‐Notch Impact Test Requirements for Full‐Size Specimens for Carbon and Low Alloy Steels, Having Specified Minimum Tensile Strength Less Than 95 ksi, Listed in Table TM-130.2-1
87 TM-220.4 Retest
TM-220.2 Illustration of Lateral Expansion in a Broken Charpy V‐Notch Specimen
TM-220.2 Minimum Lateral Expansion Requirements
TM-220.3 Charpy Impact Test Temperature Reduction Below Minimum Design Metal Temperature (MDMT)
88 TM-230.1 Impact Testing of Welds
TM-230.2 Location, Orientation, Temperature, and Values of Weld Impact Tests
TM-230.3 Impact Tests of Welding ProcedureQualifications
89 TM-230.4 Vessel (Production) Impact TestPlates
TM-230.5 Rejection
TM-240.1 For Carbon and Low Alloy Steels,Dependent on Design Temperature
90 TM-240.1-1 Impact Test Exemption Curves
92 TM-240.2 Impact Tests of Welding Procedures
TM-240.3 For Carbon and Low Alloy Steels,Dependent on Design Stress Values
93 TM-240.4 Other Requirements and Exemptionsfor Carbon and Low Alloy Steels
TM-240.1 Tabular Values for Figure TM-240.1-1
94 TM-240.1-2 Some Typical Tank Details Showing the Governing Thicknesses as Defined in TM-240.1
97 TM-240.3-1 Reduction in Minimum Design Metal Temperature Without Impact Testing
98 TM-240.3-2 Diagram of TM-240.1 Rules for Determining Lowest Minimum Design Metal Temperature (MDMT) Without Impact Testing
99 TM-250.1 Required Impact Testing of Base Metal, Heat-Affected Zones, and WeldMetal
100 TM-250.1 Weld Metal Delta Ferrite Content
101 TM-250.2 Required Impact Testing for WeldingProcedure Qualifications
TM-250.3 Required Impact Tests When ThermalTreatments Are Performed
TM-250.4 Exemptions From Impact Testing forBase Metals and Heat-Affected Zones
TM-250.5 Exemptions From Impact Testing forWelding Procedure Qualifications
TM-250.6 Pre-Use Test Requirements forAustenitic Stainless Steel WeldingConsumables
102 TM-250.7 Exemption From Impact TestingBecause of Low Stress
TM-260.1 General
103 TM-260.2 Impact Test Requirements
TM-260.3 Welded Joints
111 TD-310.1 Principal Dimensions of Typical Heads
112 TD-310.2-1 Values for M
TD-310.2-2 Values for K
114 TD-400.1 Diagrammatic Representation of Variables for Design of Cylindrical Vessels Subjected to External Pressure
117 TD-410.2-1 Various Arrangements of Stiffening Rings for Cylindrical Vessels Subjected to External Pressure
118 TD-410.2-2 Minimum Arc of Shell Left Unsupported Because of Gap in Stiffening Ring of Cylindrical Shell Under External Pressure
119 TD-420 Some Acceptable Methods of Attaching Stiffening Rings
120 TD-430 Values of Spherical Radius Factor Ko for Ellipsoidal Head With Pressure on Convex Side
122 TD-440.4 Bending Stress Distribution in a Typical Transport Tank
125 TD-500 Some Acceptable Types of Unstayed Flat Heads and Covers
130 TD-610.3-1 Chart for Determining Value of F, as Required in TD-610.3
TD-610.1 Values of Spherical Radius Factor, K1
131 TD-610.3-2 Nomenclature and Equations for Reinforced Openings
133 TD-610.7 Openings for Radial Nozzles in Cylindrical Shells
134 TD-620 Minimum Depth for Flange of Flued in Openings
136 TD-640 Some Representative Configurations Describing the Reinforcement Dimension, te, and the Opening Dimension, d
139 TD-650 Nozzle Attachment Welds
140 TD-660 Examples of Multiple Openings
141 TD-670 Minimum Number of Pipe Threads for Connections
TD-680 Nozzle Neck Thickness
143 TW-100.1 Fabricated Lap Joint Stub Ends for Fluids With United Nations Hazard Classifications Defined in TW-100.1(a)
145 TW-130.2 Butt Welding of Plates of Unequal Thickness
TW-130.3 Illustration of Welded Joint Locations Typical of Categories A, B, C, and D
147 TW-130.4 Maximum Allowable Joint Efficiencies for Arc‐ and Gas‐Welded Joints
150 TW-130.5-1 Heads Attached to Shells (See Table TW-130.4 for Limitations)
154 TW-130.5-2 Attachment of Pressure Parts to Flat Plates to Form a Corner Joint
155 TW-130.5-3 Nozzle Necks Attached to Piping of Lesser Wall Thickness
156 TW-130.7-1 Acceptable Welded Nozzle Attachment Readily Radiographed to Code Standards
157 TW-130.7-2 Acceptable Full Penetration Welded Nozzle Attachments Radiographable With Difficulty and Generally Requiring Special Techniques Including Multiple Exposures to Take Care of Thickness Variations
159 TW-140.2-1 Some Acceptable Types of Welded Nozzles and Other Connections to Shells, Heads, Etc
164 TW-140.2-2 Some Acceptable Types of Small Fittings [See TW-140.2(f)(3) for Limitations]
168 TF-120.2-1 Example of Differences Between Maximum and Minimum Inside Diameters in Cylindrical, Conical, and Spherical Shells
169 TF-120.2-2 Maximum Permissible Deviation From a Circular Form, e, for Vessels Under External Pressure
174 TF-220.3 Maximum Offset Values
TF-220.4 Thickness of Weld Reinforcement
186 TF-710-1(a) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 1
187 TF-710-1(b) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 3
188 TF-710-1(c) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9A
189 TF-710-1(d) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9B
190 TF-710-1(e) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10A
TF-710-1(f) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10B
191 TF-710-1(g) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10C
TF-710-1(h) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10F
192 TF-710-2 Alternative Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels
193 TF-720-1 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 6
TF-720-2 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 7
194 TF-720-3 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 8
TF-720-4 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 10H
195 TF-720-5 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 10I
TF-720-6 Postweld Heat Treatment Requirements for High Alloy Steels — P‐No. 10K
196 TF-740 Postweld Heat Treatment Requirements for Ferritic Steels Enhanced by Heat Treatment
202 TE-230.2 Thickness Above Which Full Radiographic Examination of Butt‐Welded Joints Is Mandatory
230 TR-510 Official Certification Mark to Denote ASME’s Standard Pressure Relief Devices for Transport Tanks
233 TS-100 Form of Stamping
251 1-1.4(a)-1 Maximum Range for Tensile Strength Properties, for Categories 406, 407, and 412 Class 3 Tanks Where Allowable Tensile Strength Is the Determining Criterion for Allowable Tensile, and Compressive, Stresses, When Buckling (Article TD-4) Is Not Controlling
252 1-1.4(a)-2 Maximum Range for Tensile Strength Properties, for Categories 406, 407, and 412 Class 3 Tanks Where Yield Strength Is the Determining Criterion for Allowable Tensile or Compressive Stresses per TD-440
253 1-1.4 Loading Conditions
259 1-1.8 Minimum Emergency Vent Capacity (Interpolation Allowed)
1-1.8M Minimum Emergency Vent Capacity (Interpolation Allowed)
260 1-1.9 Periodic Inspection and Test Frequencies
272 1-4.1 Refrigerated Nontoxic Gases
274 1-4.4-1 Design Load Factors for Normal Operations in Specified Transportation Modes
275 1-4.4-2 Factors for Fatigue Analysis
281 3-1.1 Refrigerated Nontoxic Gases
282 3-1.5-1 Design Load Factors for Normal Operations in Specified Transportation Modes
283 3-1.5-2 Factors for Fatigue Analysis in Specified Transportation Modes
289 4-6.1-1 Minimum Thicknesses, Test Pressures, Start-to-Discharge or Burst Pressures, and Minimum Vapor‐Tightness Pressures of Relief Devices
299 IV-3 Acceptable Rounded Indications
300 IV-3-1 Aligned Rounded Indications
301 IV-3-2 Groups of Aligned Rounded Indications
302 IV-3-3 Charts for t Equal to 3.2 mm to 6.4 mm (1/8 in. to 1/4 in.), Inclusive
IV-3-4 Charts for t Over 6.4 mm to 9.5 mm (1/4 in. to 3/8 in.), Inclusive
303 IV-3-5 Charts for t Over 9.5 mm to 19 mm (3/8 in. to 3/4 in.), Inclusive
IV-3-6 Charts for t Over 19 mm to 50 mm (3/4 in. to 2 in.), Inclusive
304 IV-3-7 Charts for t Over 50 mm to 100 mm (2 in. to 4 in.), Inclusive
305 IV-3-8 Charts for t Over 100 mm (4 in.)
311 VIII-2-1 Types of Tanks: Design Moments and Bending Stresses
312 VIII-2-2 Bending Moments in Noncircular Shells
313 VIII-2-3 Noncircular Cargo Tank Structural Properties
314 VIII-2-4 Noncircular Tank
321 XII-1 Standard Units for Use in Equations
330 XVI-3-1 Nomenclature
332 XVI-6-1 Limits for Torispherical Head
XVI-6-2 Limits for Ellipsoidal Head
XVI-6-3 Limits for Hemispherical Head
333 XVII-4-1 Allowable Materials and Design Stress
338 XIX-1 Constant, C, for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv)
XIX-1M Constant, C, for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv)
339 XIX-1 Molecular Weights of Gases and Vapors
344 C-1 Instructions for the Preparation of Manufacturer’s Data Reports
348 T-1A Manufacturer’s Data Report for Class 1 Transport Tanks
349 T-1B Manufacturer’s Data Report for Class 2 Transport Tanks
350 T-1C Manufacturer’s Data Report for Class 3 Transport Tanks
351 T-2A Manufacturer’s Partial Data Report for Class 1 Transport Tanks
352 T-2B Manufacturer’s Partial Data Report for Class 2 Transport Tanks
353 T-2C Manufacturer’s Partial Data Report for Class 3 Transport Tanks
354 T-3A Class 1 Transport Tank Manufacturer’s Data Report Supplementary Sheet
355 T-3B Class 2 Transport Tank Manufacturer’s Data Report Supplementary Sheet
356 T-3C Class 3 Transport Tank Manufacturer’s Data Report Supplementary Sheet
357 C-2 Supplementary Instructions for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance Forms TV-1 and TD-1
358 TV-1 Manufacturer’s or Assembler’s Certificate of Conformance for Pressure Relief Valves
359 TD-1 Manufacturer’s Certificate of Conformance for Nonreclosing Pressure Relief Devices
361 D-1 Sample Certificate of Authorization
380 J-1.2-1 Austenitic Stainless Steel Base Metal and HAZ Toughness Testing Requirements
381 J-1.2-2 Welding Procedure Qualification With Toughness Testing Requirements for Austenitic Stainless Steel
382 J-1.2-3 Welding Consumable Pre-Use Testing Requirements for Austenitic Stainless Steel
383 J-1.2-4 Production Toughness Testing Requirements for Austenitic Stainless Steel
384 J-1.2-5 Austenitic-Ferritic Duplex, Ferritic Chromium, and Martensitic Stainless Steel Toughness Testing Requirements
387 K-1 Preheating Temperatures

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ASME BPVC XII 2017
$377.00