🔥🔥 Don’t Miss Out on Our End of Autumn Sale. If you have any questions, feel free to click the bottom right corner to contact our customer service..

Concat us[email protected]
Shopping Cart

No products in the cart.

🔍
ASME BPVC XII 2021

ASME BPVC XII 2021

$377.00

ASME BPVC – XII -2021 BPVC Section XII, Rules for Construction and Continued Service of Transport Tanks

Published By Publication Date Number of Pages
ASME 2021 401
PDF Format Searchable Printable Preview Now
Guaranteed Safe Checkout
Category:

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

This Section covers requirements for construction and continued service of pressure vessels for the transportation of dangerous goods via highway, rail, air or water at pressures from full vacuum to 3,000 psig and volumes greater than 120 gallons. “Construction” is an all-inclusive term comprising materials, design, fabrication, examination, inspection, testing, certification, and over-pressure protection. “Continued service” is an all-inclusive term referring to inspection, testing, repair, alteration, and recertification of a transport tank that has been in service. This Section contains modal appendices containing requirements for vessels used in specific transport modes and service applications. Rules pertaining to the use of the T ASME Product Certification Marks are included. Careful application of this Section will help users to comply with applicable regulations within their jurisdictions, while achieving the operational, cost and safety benefits to be gained from the many industry best-practices detailed within these volumes.

PDF Catalog

PDF Pages PDF Title
55 TG-130 Product Standards Referenced by This Section
68 TM-130.2-1 Carbon and Low Alloy Steels
71 TM-130.2-2 High Alloy Steels
77 TM-130.2-3 Aluminum and Aluminum Alloy Products
78 TM-130.2-4 Copper and Copper Alloys
79 TM-130.2-5 Nickel and Nickel Alloys
81 TM-130.2-6 Ferritic Steels With Tensile Properties Enhanced by Heat Treatment
82 TM-130.2-7 Titanium and Titanium Alloys
87 TM-210.2 Simple Beam Impact Test Specimens (Charpy‐Type Test)
TM-210.1 Impact Test Temperature Differential
89 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
90 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)
93 TM-240.1-1 Impact Test Exemption Curves
96 TM-240.1 Tabular Values for Figure TM-240.1-1
97 TM-240.1-2 Some Typical Tank Details Showing the Governing Thicknesses as Defined in TM-240.1
100 TM-240.3-1 Reduction in Minimum Design Metal Temperature Without Impact Testing
101 TM-240.3-2 Diagram of TM-240.1 Rules for Determining Lowest Minimum Design Metal Temperature (MDMT) Without Impact Testing
104 TM-250.1 Weld Metal Delta Ferrite Content
114 TD-310.1 Principal Dimensions of Typical Heads
115 TD-310.2-1 Values for M
TD-310.2-2 Values for K
117 TD-400.1 Diagrammatic Representation of Variables for Design of Cylindrical Vessels Subjected to External Pressure
120 TD-410.2-1 Various Arrangements of Stiffening Rings for Cylindrical Vessels Subjected to External Pressure
121 TD-410.2-2 Minimum Arc of Shell Left Unsupported Because of Gap in Stiffening Ring of Cylindrical Shell Under External Pressure
122 TD-420 Some Acceptable Methods of Attaching Stiffening Rings
123 TD-430 Values of Spherical Radius Factor Ko for Ellipsoidal Head With Pressure on Convex Side
125 TD-440.4 Bending Stress Distribution in a Typical Transport Tank
128 TD-500 Some Acceptable Types of Unstayed Flat Heads and Covers
133 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
134 TD-610.3-2 Nomenclature and Equations for Reinforced Openings
136 TD-610.7 Openings for Radial Nozzles in Cylindrical Shells
137 TD-620 Minimum Depth for Flange of Flued in Openings
139 TD-640 Some Representative Configurations Describing the Reinforcement Dimension, te, and the Opening Dimension, d
142 TD-650 Nozzle Attachment Welds
143 TD-660 Examples of Multiple Openings
144 TD-670 Minimum Number of Pipe Threads for Connections
145 TD-680 Nozzle Neck Thickness
146 TW-100.1 Fabricated Lap Joint Stub Ends for Fluids With United Nations Hazard Classifications Defined in TW-100.1(a)
148 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
150 TW-130.4 Maximum Allowable Joint Efficiencies for Arc‐ and Gas‐Welded Joints
152 TW-130.5-1 Heads Attached to Shells (See Table TW-130.4 for Limitations)
156 TW-130.5-2 Attachment of Pressure Parts to Flat Plates to Form a Corner Joint
157 TW-130.5-3 Nozzle Necks Attached to Piping of Lesser Wall Thickness
158 TW-130.7-1 Acceptable Welded Nozzle Attachment Readily Radiographed to Code Standards
159 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
162 TW-140.2-1 Some Acceptable Types of Welded Nozzles and Other Connections to Shells, Heads, Etc
167 TW-140.2-2 Some Acceptable Types of Small Fittings [See TW-140.2(f)(3) for Limitations]
170 TF-120.2-1 Example of Differences Between Maximum and Minimum Inside Diameters in Cylindrical, Conical, and Spherical Shells
171 TF-120.2-2 Maximum Permissible Deviation From a Circular Form, e, for Vessels Under External Pressure
176 TF-220.3 Maximum Offset Values
TF-220.4 Thickness of Weld Reinforcement
188 TF-710-1(a) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 1
189 TF-710-1(b) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 3
190 TF-710-1(c) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9A
191 TF-710-1(d) Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9B
192 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
193 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
194 TF-710-2 Alternative Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels
195 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
196 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
197 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
198 TF-740 Postweld Heat Treatment Requirements for Ferritic Steels Enhanced by Heat Treatment
204 TE-230.2 Thickness Above Which Full Radiographic Examination of Butt‐Welded Joints Is Mandatory
219 TS-100 Form of Stamping
237 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
238 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
239 1-1.4 Loading Conditions
245 1-1.8 Minimum Emergency Vent Capacity (Interpolation Allowed)
1-1.8M Minimum Emergency Vent Capacity (Interpolation Allowed)
247 1-1.9 Periodic Inspection and Test Frequencies
258 1-4.1 Refrigerated Nontoxic Gases
260 1-4.4-1 Design Load Factors for Normal Operations in Specified Transportation Modes
261 1-4.4-2 Factors for Fatigue Analysis
267 3-1.1 Refrigerated Nontoxic Gases
268 3-1.5-1 Design Load Factors for Normal Operations in Specified Transportation Modes
269 3-1.5-2 Factors for Fatigue Analysis in Specified Transportation Modes
275 4-1.6.1-1 Minimum Thicknesses, Test Pressures, Start-to-Discharge or Burst Pressures, and Minimum Vapor‐Tightness Pressures of Relief Devices
284 IV-3 Acceptable Rounded Indications
285 IV-3-1 Aligned Rounded Indications
286 IV-3-2 Groups of Aligned Rounded Indications
287 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
288 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
289 IV-3-7 Charts for t Over 50 mm to 100 mm (2 in. to 4 in.), Inclusive
290 IV-3-8 Charts for t Over 100 mm (4 in.)
296 VIII-2-1 Types of Tanks: Design Moments and Bending Stresses
297 VIII-2-2 Bending Moments in Noncircular Shells
298 VIII-2-3 Noncircular Cargo Tank Structural Properties
299 VIII-2-4 Noncircular Tank
306 XII-1 Standard Units for Use in Equations
315 XVI-3-1 Nomenclature
317 XVI-6-1 Limits for Torispherical Head
XVI-6-2 Limits for Ellipsoidal Head
XVI-6-3 Limits for Hemispherical Head
318 XVII-4-1 Allowable Materials and Design Stress
327 XX-4 Types of Flanges
330 XX-4 Recommended Minimum Gasket Contact Widths for Sheet and Composite Gaskets
331 XX-5.1 Gasket Materials and Contact Facings
333 XX-5.2 Effective Gasket Width
335 XX-6 Moment Arms for Flange Loads Under Operating Conditions
336 XX-7.1 Values of T, U, Y, and Z (Terms Involving K)
337 XX-7.2 Values of F (Integral Flange Factors)
338 XX-7.3 Values of V (Integral Flange Factors)
339 XX-7.4 Values of FL (Loose Hub Flange Factors)
XX-7.5 Values of VL (Loose Hub Flange Factors)
340 XX-7.6 Values of f (Hub Stress Correction Factor)
341 XX-7.1 Flange Factors in Formula Form
343 XX-13.1 Reverse Flange
344 XX-13.2 Loose Ring Type Reverse Flange
345 XX-14 Flange Rigidity Factors
350 C-1 Instructions for the Preparation of Manufacturer’s Data Reports
353 T-1A Manufacturer’s Data Report for Class 1 Transport Tanks
354 T-1B Manufacturer’s Data Report for Class 2 Transport Tanks
355 T-1C Manufacturer’s Data Report for Class 3 Transport Tanks
356 T-2A Manufacturer’s Partial Data Report for Class 1 Transport Tanks
357 T-2B Manufacturer’s Partial Data Report for Class 2 Transport Tanks
358 T-2C Manufacturer’s Partial Data Report for Class 3 Transport Tanks
359 T-3A Class 1 Transport Tank Manufacturer’s Data Report Supplementary Sheet
360 T-3B Class 2 Transport Tank Manufacturer’s Data Report Supplementary Sheet
361 C-2 Supplementary Instructions for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance Forms TV-1 and TD-1
T-3C Class 3 Transport Tank Manufacturer’s Data Report Supplementary Sheet
362 TV-1 Manufacturer’s or Assembler’s Certificate of Conformance for Pressure Relief Valves
TD-1 Manufacturer’s Certificate of Conformance for Nonreclosing Pressure Relief Devices
364 D-1 Sample Certificate of Authorization
368 E-3-1 Acceptance Levels for Surface Imperfections
383 J-1.2-1 Austenitic Stainless Steel Base Metal and HAZ Toughness Testing Requirements
384 J-1.2-2 Welding Procedure Qualification With Toughness Testing Requirements for Austenitic Stainless Steel
385 J-1.2-3 Welding Consumable Pre-Use Testing Requirements for Austenitic Stainless Steel
386 J-1.2-4 Production Toughness Testing Requirements for Austenitic Stainless Steel
387 J-1.2-5 Austenitic-Ferritic Duplex, Ferritic Chromium, and Martensitic Stainless Steel Toughness Testing Requirements
389 K-1 Preheating Temperatures
394 M-1-1 Cross-Reference List

Related products

ASME BPVC XII 2021
$377.00