This Division of Section VIII provides requirements applicable to the design, fabrication, inspection, testing, and certification of pressure vessels operating at either internal or external pressures exceeding 15 psig. Such pressure vessels may be fired or unfired. Specific requirements apply to several classes of material used in pressure vessel construction, and also to fabrication methods such as welding, forging and brazing. It contains mandatory and nonmandatory appendices detailing supplementary design criteria, nondestructive examination and inspection acceptance standards. Rules pertaining to the use of the U, UM and UV ASME Product Certification Marks are also 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. Intended for manufacturers, users, constructors, designers and others concerned with the design, fabrication, assembly, erection, examination, inspection and testing of pressure vessels, plus all potential governing entities.

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PDF Pages	PDF Title
83	U-3 Year of Acceptable Edition of Referenced Standards in This Division
84	U-4-1 Standard Units for Use in Equations
98	UG-28 Diagrammatic Representation of Variables for Design of Cylindrical Vessels Subjected to External Pressure
99	UG-28.1 Diagrammatic Representation of Lines of Support for Design of Cylindrical Vessels Subjected to External Pressure
103	UG-29.1 Various Arrangements of Stiffening Rings for Cylindrical Vessels Subjected to External Pressure
104	UG-29.2 Maximum Arc of Shell Left Unsupported Because of Gap in Stiffening Ring of Cylindrical Shell Under External Pressure
106	UG-30 Some Acceptable Methods of Attaching Stiffening Rings
109	UG-33.1 Length Lc of Some Typical Conical Sections for External Pressure UG-33.1 Values of Spherical Radius Factor Ko for Ellipsoidal Head With Pressure on Convex Side
112	UG-34 Some Acceptable Types of Unstayed Flat Heads and Covers
117	UG-36 Large Head Openings — Reverse-Curve and Conical Shell-Reducer Sections
120	UG-37 Chart for Determining Value of F, as Required in UG-37
121	UG-37.1 Nomenclature and Formulas for Reinforced Openings
122	UG-38 Minimum Depth for Flange of Flued‐In Openings UG-37 Values of Spherical Radius Factor K1
124	UG-39 Openings in Flat Heads and Covers
126	UG-40 Some Representative Configurations Describing the Reinforcement Dimension te and the Opening Dimension d
129	UG-41.1 Nozzle Attachment Weld Loads and Weld Strength Paths to Be Considered
131	UG-42 Examples of Multiple Openings UG-43 Minimum Number of Pipe Threads for Connections
133	UG-44-1 Moment Factor, FM
134	UG-45 Nozzle Minimum Thickness Requirements
135	UG-47 Acceptable Proportions for Ends of Stays
137	UG-53.1 Example of Tube Spacing With Pitch of Holes Equal in Every Row UG-53.2 Example of Tube Spacing With Pitch of Holes Unequal in Every Second Row
138	UG-53.3 Example of Tube Spacing With Pitch of Holes Varying in Every Second and Third Row UG-53.4 Example of Tube Spacing With Tube Holes on Diagonal Lines
139	UG-53.5 Diagram for Determining the Efficiency of Longitudinal and Diagonal Ligaments Between Openings in Cylindrical Shells
140	UG-53.6 Diagram for Determining Equivalent Longitudinal Efficiency of Diagonal Ligaments Between Openings in Cylindrical Shells
141	UG-79-1 Equations for Calculating Forming Strains
143	UG-80.1 Maximum Permissible Deviation From a Circular Form e for Vessels Under External Pressure UG-80.2 Example of Differences Between Maximum and Minimum Inside Diameters in Cylindrical, Conical, and Spherical Shells
144	UG-84 Simple Beam Impact Test Specimens (Charpy Type Test)
146	UG-84.1 Charpy V‐Notch Impact Test Requirements for Full-Size Specimens for Carbon and Low Alloy Steels, Having a Specified Minimum Tensile Strength of Less Than 95 ksi, Listed in Table UCS-23
147	UG-84.1M Charpy V‐Notch Impact Test Requirements for Full-Size Specimens for Carbon and Low Alloy Steels, Having a Specified Minimum Tensile Strength of Less Than 655 MPa, Listed in Table UCS-23
148	UG-84.2 Charpy Impact Test Temperature Reduction Below Minimum Design Metal Temperature UG-84.3 Specifications for Impact Tested Materials in Various Product Forms UG-84.4 Impact Test Temperature Differential
149	UG-84.5 HAZ Impact Specimen Removal UG-84.6 Required HAZ Impact Test Specimen Set Removal
163	UG-116 Official Certification Mark to Denote the American Society of Mechanical Engineers’ Standard
166	UG-118 Form of Stamping
173	UG-129.1 Official Certification Mark to Denote the American Society of Mechanical Engineers’ Standard for Pressure Relief Valves UG-129.2 Official Certification Mark to Denote the American Society of Mechanical Engineers’ Standard for Nonreclosing Pressure Relief Devices
194	UW-3 Illustration of Welded Joint Locations Typical of Categories A, B, C, and D
196	UW-9-1 Butt Welding of Plates of Unequal Thickness UW-9-2 Butt Welding of Components to Thickened Neck Nozzles
199	UW-12 Maximum Allowable Joint Efficiencies for Welded Joints
200	UW-13.1 Heads Attached to Shells
203	UW-13.2 Attachment of Pressure Parts to Flat Plates to Form a Corner Joint
208	UW-13.3 Typical Pressure Parts With Butt-Welded Hubs UW-13.4 Nozzle Necks Attached to Piping of Lesser Wall Thickness
209	UW-13.5 Fabricated Lap Joint Stub Ends for Lethal Service
210	UW-16.1 Some Acceptable Types of Welded Nozzles and Other Connections to Shells, Heads, etc
216	UW-16.1 Minimum Thickness Requirements for Fittings
217	UW-16.2 Some Acceptable Types of Small Standard Fittings
218	UW-16.3 Some Acceptable Types of Small Bolting Pads
220	UW-19.1 Typical Forms of Welded Staybolts UW-19.2 Use of Plug and Slot Welds for Staying Plates
222	UW-20.1 Some Acceptable Types of Tube‐to‐Tubesheet Strength Welds
224	UW-21 Welds of Socket Weld Flanges to Nozzle Necks
226	UW-33
238	UB-2 Maximum Design Temperatures for Brazing Filler Metal
240	UB-14 Examples of Filler Metal Application
241	UB-16 Some Acceptable Types of Brazed Joints UB-17 Recommended Joint Clearances at Brazing Temperature
247	UCS-23 Carbon and Low Alloy Steel
250	UCS-56-1 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 1
251	UCS-56-2 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 3
252	UCS-56-3 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 4
253	UCS-56-4 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-Nos. 5A, 5B, and 5C
254	UCS-56-5 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9A
255	UCS-56-6 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 9B
256	UCS-56-7 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10A UCS-56-8 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10B
257	UCS-56-9 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 10C
258	UCS-56-11 Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels — P-No. 15E
259	UCS-56.1 Alternative Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels UCS-57 Thickness Above Which Full Radiographic Examination of Butt-Welded Joints Is Mandatory
260	UCS-66 Impact Test Exemption Curves
263	UCS-66M Impact Test Exemption Curves
266	UCS-66 Tabular Values for Figure UCS-66 and Figure UCS-66M
268	UCS-66.1 Reduction in Minimum Design Metal Temperature Without Impact Testing
269	UCS-66.1M Reduction in Minimum Design Metal Temperature Without Impact Testing
270	UCS-66.2 Diagram of UCS-66 Rules for Determining Lowest Minimum Design Metal Temperature (MDMT) Without Impact Testing
272	UCS-66.3 Some Typical Vessel Details Showing the Governing Thicknesses as Defined in UCS-66
277	UCS-79-1 Post-Cold-Forming Strain Limits and Heat Treatment Requirements for P-No. 15E Materials
282	UNF-23.1 Nonferrous Metals — Aluminum and Aluminum Alloy Products UNF-23.2 Nonferrous Metals — Copper and Copper Alloys
283	UNF-23.3 Nonferrous Metals — Nickel, Cobalt, and High Nickel Alloys
284	UNF-23.4 Nonferrous Metals — Titanium and Titanium Alloys UNF-23.5 Nonferrous Metals — Zirconium
287	UNF-79 Postfabrication Strain Limits and Required Heat Treatment
292	UHA-23 High Alloy Steel
294	UHA-32-1 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 6
295	UHA-32-2 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 7 UHA-32-3 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 8
296	UHA-32-4 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 10H UHA-32-5 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 10I
297	UHA-32-6 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 10K UHA-32-7 Postweld Heat Treatment Requirements for High Alloy Steels — P-No. 45
299	UHA-44 Postfabrication Strain Limits and Required Heat Treatment
300	UHA-51-1 Weld Metal Delta Ferrite Content
306	UCI-23 Maximum Allowable Stress Values in Tension for Cast Iron
307	UCI-78.1 UCI-78.2
315	UCD-23 Maximum Allowable Stress Values in Tension for Cast Ductile Iron, ksi (MPa)
316	UCD-78.1 UCD-78.2
319	UHT-6.1 Charpy V‐Notch Impact Test Requirements UHT-6.1M Charpy V‐Notch Impact Test Requirements
321	UHT-18.1 Acceptable Welded Nozzle Attachment Readily Radiographed to Code Standards
322	UHT-18.2 Acceptable Full Penetration Welded Nozzle Attachments Radiographable With Difficulty and Generally Requiring Special Techniques Including Multiple Exposures to Take Care of Thickness Variations
323	UHT-23 Ferritic Steels With Properties Enhanced by Heat Treatment
325	UHT-56 Postweld Heat Treatment Requirements for Materials in Table UHT-23
330	ULW-2.1 Some Acceptable Layered Shell Types
331	ULW-2.2 Some Acceptable Layered Head Types
333	ULW-17.1 Transitions of Layered Shell Sections
334	ULW-17.2 Some Acceptable Solid Head Attachments to Layered Shell Sections
336	ULW-17.3 Some Acceptable Flat Heads and Tubesheets With Hubs Joining Layered Shell Sections
337	ULW-17.4 Some Acceptable Flanges for Layered Shells
338	ULW-17.5 Some Acceptable Layered Head Attachments to Layered Shells
339	ULW-17.6 Some Acceptable Welded Joints of Layered‐to‐Layered and Layered‐to‐Solid Sections
341	ULW-18.1 Some Acceptable Nozzle Attachments in Layered Shell Sections
343	ULW-22 Some Acceptable Supports for Layered Vessels
345	ULW-32.1 Solid‐to‐Layered and Layered‐to‐Layered Test Plates
346	ULW-32.2 ULW-32.3
347	ULW-32.4
348	ULW-54.1
349	ULW-54.2
351	ULW-77
354	ULT-23 V001 Maximum Allowable Stress Values in Tension for 5%, 7%, 8%, and 9% Nickel Steels; Types 304 and 316 Stainless Steels; and 5083‐0 Aluminum Alloy at Cryogenic Temperatures for Welded and Nonwelded Construction
358	ULT-82 Minimum Tensile Strength Requirements for Welding Procedure Qualification Tests on Tension Specimens Conforming to Section IX, Figures QW-462.1(a) Through QW-462.1(e)
359	ULT-82M Minimum Tensile Strength Requirements for Welding Procedure Qualification Tests on Tension Specimens Conforming to Section IX, Figures QW-462.1(a) Through QW-462.1(e)
362	UHX-3 Terminology of Heat Exchanger Components
363	UHX-4-1 Nozzles Adjacent to Tubesheets
364	UHX-8.1 Tubesheet Effective Bolt Load, W*
366	UHX-9 Some Representative Configurations Describing the Minimum Required Thickness of the Tubesheet Flanged Extension, hr
367	UHX-10 Integral Channels
369	UHX-11.3-1 Tubesheet Geometry
370	UHX-11.3-2 Typical Untubed Lane Configurations
371	UHX-11.3-3 Location of Tubesheet Metal Temperature, T’, at Rim
372	UHX-11.5.2-1 Curves for the Determination of E/E and ν (Equilateral Triangular Pattern)
373	UHX-11.5.2-2 Curves for the Determination of E/E and ν (Square Pattern)
374	UHX-12.1 U‐Tube Tubesheet Configurations
375	UHX-12.2 Tube Layout Perimeter
376	UHX-12.4-1
382	UHX-13.1 Fixed Tubesheet Configurations
383	UHX-13.1 Formulas for Determination of Zd, Zv, Zm, Zw, and Fm
384	UHX-13.2 Formulas for Determination of Ft,min and Ft,max
385	UHX-13.2 Zd, Zv, Zw, and Zm Versus Xa UHX-13.4-1
386	UHX-13.4 Different Shell Thicknesses and/or Material Adjacent to the Tubesheets UHX-13.4-2
388	UHX-13.5.7-1 Fm Versus Xa (0.0 ≤ Q3 ≤ 0.8)
389	UHX-13.5.7-2 Fm Versus Xa (−0.8 ≤ Q3 ≤ 0.0)
393	UHX-13.8.4-1
396	UHX-13.10.3-1 Kettle Shell
398	UHX-14.1 Floating Tubesheet Heat Exchangers
399	UHX-14.2 Stationary Tubesheet Configurations
401	UHX-14.3 Floating Tubesheet Configurations
402	UHX-14.4-1
407	UHX-14.6.4-1
409	UHX-17 Flexible Shell Element Expansion Joint Load Cases and Stress Limits
414	UIG-6-1 Properties of Certified Material
416	UIG-34-1 Typical Graphite Shell and Tube Heat Exchanger UIG-34-2 Fixed Tubesheet Configurations
417	UIG-34-3 Floating Tubesheet Configurations
420	UIG-34-1
423	UIG-34-2 Values for Determining E/E and v Equilateral Triangular Pattern UIG-34-3 Values for Determining E/E and v Equilateral Square Pattern
424	UIG-34-4 Tubesheet Geometry
425	UIG-34-4 Formulas for Determination of Zd, Zv, Zm, Zw, and Fm
426	UIG-34-5 Formulas for Determination of Ft,min and Ft,max
427	UIG-36-1 Unacceptable Nozzle Attachment Details
428	UIG-36-2 Some Acceptable Nozzle Attachment Details in Impregnated Graphite Pressure Vessels
433	UIG-76-1 Tension Test Specimen
434	UIG-76-2 Cement Material Tension Test Specimen
435	UIG-76-3 Tube-to-Tubesheet Tension Test Specimen
436	UIG-76-4 Tube Cement Joint Tension Test Specimen
437	UIG-76-5 Tube Tension Test Specimen
439	UIG-84-1 Test Frequency for Certified Materials
442	CMQ Certified Material Qualification Form
449	CCQ Certified Cement Qualification Form
451	CPQ Cementing Procedure Qualification Form
453	CTQ Cementing Technician Qualification Form
456	1-4 Principal Dimensions of Typical Heads 1-4.1 Values of Factor K
457	1-4.2 Values of Factor M 1-4.3 Maximum Metal Temperature
458	1-4.4 Values of Knuckle Radius, r 1-5.1 Values of Δ for Junctions at the Large Cylinder for α ≤ 30 deg
459	1-5.2 Values of Δ for Junctions at the Small Cylinder for α ≤ 30 deg
461	1-6 Dished Covers With Bolting Flanges
464	1-7-1 1-7-2
466	1-8.1 Values of Δ for Junctions at the Large Cylinder for α ≤ 60 deg
473	2-4 Types of Flanges
476	2-4 Recommended Minimum Gasket Contact Widths for Sheet and Composite Gaskets
477	2-5.1 Gasket Materials and Contact Facings
479	2-5.2 Effective Gasket Width
480	2-6 Moment Arms for Flange Loads Under Operating Conditions
482	2-7.1 Values of T, U, Y, and Z (Terms Involving K)
483	2-7.2 Values of F (Integral Flange Factors)
484	2-7.3 Values of V (Integral Flange Factors)
485	2-7.4 Values of FL (Loose Hub Flange Factors) 2-7.5 Values of VL (Loose Hub Flange Factors)
486	2-7.6 Values of f (Hub Stress Correction Factor)
487	2-7.1 Flange Factors in Formula Form
489	2-13.1 Reverse Flange
490	2-13.2 Loose Ring Type Reverse Flange
491	2-14 Flange Rigidity Factors
495	4-1
496	4-1 Aligned Rounded Indications
497	4-2 Groups of Aligned Rounded Indications
498	4-3 Charts for t Equal to 1/8 in. to 1/4 in. (3 mm to 6 mm), Inclusive
499	4-4 Charts for t Over 1/4 in. to 3/8 in. (6 mm to 10 mm), Inclusive 4-5 Charts for t Over 3/8 in. to 3/4 in. (10 mm to 19 mm), Inclusive
500	4-6 Charts for t Over 3/4 in. to 2 in. (19 mm to 50 mm), Inclusive
501	4-7 Charts for t Over 2 in. to 4 in. (50 mm to 100 mm), Inclusive
502	4-8 Charts for t Over 4 in. (100 mm)
504	5-1 Typical Flexible Shell Element Expansion Joints
505	5-2 Typical Nozzle Attachment Details Showing Minimum Length of Straight Flange or Outer Shell Element
515	9-2 Some Acceptable Types of Jacketed Vessels
517	9-5 Some Acceptable Types of Jacket Closures
521	9-6 Some Acceptable Types of Penetration Details
522	9-7
527	11-1 Constant, C, for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv) 11-1M Constant, C, for Gas or Vapor Related to Ratio of Specific Heats (k = cp/cv)
528	11-1 Molecular Weights of Gases and Vapors
529	11-2 Flow Capacity Curve for Rating Nozzle-Type Safety Valves on Saturated Water (Based on 10% Overpressure) 11-2M Flow Capacity Curve for Rating Nozzle-Type Safety Valves on Saturated Water (Based on 10% Overpressure)
532	13-2(a) Vessels of Rectangular Cross Section
536	13-2(b) Vessels of Obround Cross Section
537	13-2(c) Vessel of Circular Cross Section With Central Dividing Plate
541	13-6 Plate With Multidiameter Hole Pattern
543	13-8(d)
548	13-8(e)
554	13-13(c)
555	13-14(a) 13-14(b) Orientation of Panel Dimensions and Stresses
558	13-18.1
559	13-18(b)
561	14-1 Integral Flat Head With Large Central Opening
567	17-1 Two Embossed Plates 17-2 Two Dimpled Plates 17-3 Embossed Plate to Plain Plate
568	17-4 Arc‐Spot‐Welded Two‐Layer Assembly 17-5 Dimpled Plate Welded to Plain Plate 17-6 Three‐Ply Assemblies 17-7 Single‐Spot‐Weld Tension Specimen, Two‐Ply Joint
569	17-8 Seam‐Weld Specimen for Tension and Macrosection, Two‐Ply Joint 17-9 Single Spot‐Weld Tension Specimen for Three‐Ply Joint 17-10 Seam‐Weld Specimen for Tension and Macrosection for Three‐Ply Joint
570	17-11 Gas Metal Arc‐Spot‐Weld Block for Macrosections and Strength Tests
571	17-12 Gas Metal Arc‐Spot‐Weld Block for Bend Tests
572	17-13 Gas Tungsten‐Arc Seam Weld, Plasma‐Arc Seam Weld, Submerged‐Arc Seam Weld, and Laser Beam Seam Weld Test Specimen for Bend Tests
573	17-14 17-15 17-16 Peel Test
574	17-17 Complete Penetration Welding Per 17-1(c)
579	22-1 Typical Sections of Special Seamless Vessels
584	24-1 Typical Hub and Clamp
585	24-2 Typical Clamp Lug Configurations
588	24-8 Allowable Design Stress for Clamp Connections
590	26-1-1 Typical Bellows Expansion Joints
591	26-1-2 Starting Points for the Measurement of the Length of Shell on Each Side of the Bellows 26-2-1 Maximum Design Temperatures for Application of the Rules of Mandatory Appendix 26
593	26-2 Dimensions to Determine Ixx
596	26-3 Possible Convolution Profile in the Neutral Position
597	26-4 Coefficient Cp
598	26-5 Coefficient Cf
602	26-6 Coefficient Cd
605	26-7 Bellows Subjected to an Axial Displacement x
607	26-8 Tabular Values for Coefficients B1, B2, B3
608	26-8 Bellows Subjected to a Lateral Deflection y 26-9 Bellows Subjected to an Angular Rotation θ
610	26-10 Cyclic Displacements 26-10-1 U-Shaped Unreinforced and Reinforced Bellows Manufacturing Tolerances
611	26-11 Cyclic Displacements 26-12 Cyclic Displacements
612	26-13 Some Typical Expansion Bellows to Weld End Details
613	26-14 Toroidal Bellows Manufacturing Tolerances 26-15.1a Polynomial Coefficients αi for the Determination of Cp When C1 ≤ 0.3 26-15.1b Polynomial Coefficients αi for the Determination of Cp When C1 > 0.3
614	26-15.2 Polynomial Coefficients βi for the Determination of Cf 26-15.3 Polynomial Coefficients γi for the Determination of Cd
615	26-1 Specification Sheet for ASME Section VIII, Division 1 Mandatory Appendix 26 Bellows Expansion Joints
617	26-1M Specification Sheet for ASME Section VIII, Division 1 Mandatory Appendix 26 Bellows Expansion Joints
621	30-1 Thickness Ratio Versus Diameter Ratio
623	31-1 Material Specifications
624	31-1 31-2 Composition Requirements for 21/4Cr–1Mo–1/4V Weld Metal
626	32-3 Nomenclature
627	32-4-1 Limits for Torispherical Head
628	32-4-2 Limits for Ellipsoidal Head 32-4-3 Limits for Hemispherical Head
629	32-5-1 LTA Blend Grinding
631	34-1 Material Specifications
632	34-2 Additional Requirements
637	36-4-1 Test Specimen Arrangement
643	39-4-1 Schematic Diagram of Vacuum Apparatus
644	40-3-1 Typical Equipment (Dilometer) for Thermal Expansion Test
645	40-6-1 Typical Recording Curve in Thermal Expansion Test, ΔLt = f(θ)
647	41-1-1 EIH Support Plate Gasketed With Mating Flange
648	41-4-1 Typical EIH Support Plate and Element Geometry
649	41-5-1 Some Representative Configurations Describing the Minimum Required Thickness of the EIH Support Plate Flanged Extension, hr
653	42-5.1-1
655	44-4-1 Allowable Materials and Design Stress
659	45-3.1-1 Typical Plate Heat Exchanger
666	A-2 Efficiencies fr
667	A-2 Some Acceptable Types of Tube‐to‐Tubesheet Welds
668	A-3 Typical Test Fixtures for Expanded or Welded Tube‐to‐Tubesheet Joints
679	K-2 Some Acceptable Types of Filler Plugs
681	L-1.4-1 Joint Efficiency and Weld Joint Type — Cylinders and Cones
682	L-1.4-2 Joint Efficiency and Weld Joint Type — Heads
683	L-1.4-3 Joint Efficiencies for Category A and D Welded Joints in Shells, Heads, or Cones
684	L-1.4-4 Joint Efficiencies for Category B and C Welded Joints in Shells or Cones
691	P-1 Criteria for Establishing Allowable Stress Values
698	U-1 Manufacturer’s Data Report for Pressure Vessels
701	U-1A Manufacturer’s Data Report for Pressure Vessels
703	U-1B Manufacturer’s Supplementary Data Report for Graphite Pressure Vessels
704	U-1P Manufacturer’s Data Report for Plate Heat Exchangers
706	U-2 Manufacturer’s Partial Data Report
709	U-2A Manufacturer’s Partial Data Report (Alternative Form)
711	U-3 Manufacturer’s Certificate of Compliance Covering Pressure Vessels to Be Stamped With the UM Designator [See U-1(j)]
713	U-3A Manufacturer’s Certificate of Compliance (Alternative Form) Covering Pressure Vessels to Be Stamped With the UM Designator [See U-1(j)]
715	U-3P Manufacturer’s Certificate of Compliance for Plate Heat Exchangers Covering Pressure Vessels to Be Stamped With the UM Designator [See U-1(j)]
717	U-4 Manufacturer’s Data Report Supplementary Sheet
718	U-5 Manufacturer’s Data Report Supplementary Sheet Shell-and-Tube Heat Exchangers
719	W-3 Instructions for the Preparation of Manufacturer’s Data Reports
724	W-3.1 Example of the Use of Form U-4
725	W-3.1 Supplementary Instructions for the Preparation of Manufacturer’s Data Reports for Layered Vessels
726	UV-1 Manufacturer’s or Assembler’s Certificate of Conformance for Pressure Relief Valves
727	UD-1 Manufacturer’s Certificate of Conformance for Nonreclosing Pressure Relief Devices
728	W-3.2 Supplementary Instructions for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance Forms UV-1 and UD-1
732	Y-3.1
733	Y-3.2 Flange Dimensions and Forces
735	Y-5.1.1 Class 1 Flange Assembly (Identical Flange Pairs) Y-5.1.2 Class 2 Flange Assembly
736	Y-5.1.3 Class 3 Flange Assembly Y-6.1 Summary of Applicable Equations for Different Classes of Assemblies and Different Categories of Flanges
741	Y-9.1 Trial Flange Thickness and Area of Bolting for Various Classes of Assemblies and Flange Categories
745	EE-1 NPS 2 Pipe Jacket
746	EE-2 NPS 3 Pipe Jacket
747	EE-3 NPS 4 Pipe Jacket
748	EE-4 EE-5
758	QEXP-1 Tube Expanding Procedure Specification (TEPS)
760	QEXP-1 Instructions for Filling Out TEPS Form
762	QEXP-2 Suggested Format for Tube-to-Tubesheet Expanding Procedure Qualification Record for Test Qualification (TEPQR)
765	JJ-1.2-1 Austenitic Stainless Steel Base Metal and HAZ Toughness Testing Requirements
766	JJ-1.2-2 Welding Procedure Qualification With Toughness Testing Requirements for Austenitic Stainless Steel
767	JJ-1.2-3 Welding Consumable Pre‐Use Testing Requirements for Austenitic Stainless Steel
768	JJ-1.2-4 Production Toughness Testing Requirements for Austenitic Stainless Steel
769	JJ-1.2-5 Austenitic-Ferritic Duplex, Ferritic Chromium, and Martensitic Stainless Steel Toughness Testing Requirements
771	U-DR-1 User’s Design Requirements for Single-Chamber Pressure Vessels
773	U-DR-2 User’s Design Requirements for Multichamber Pressure Vessels
775	KK-1 Instructions for the Preparation of User’s Design Requirements
777	LL-1 Graphical Representation of Ft,min
778	LL-2 Graphical Representation of Ft,max
783	NN-6-1 Responsibilities of the User
784	NN-6-2 Matters of Agreement Between the User and the Manufacturer NN-6-3 The Manufacturer’s Responsibility to the User NN-6-4 Recommendations to the User
785	NN-6-5 Responsibilities of the User or His Designated Agent NN-6-6 Matters of Agreement Between the User or His Designated Agent and the Manufacturer
786	NN-6-7 The Manufacturer’s Responsibility to the User or His Designated Agent NN-6-8 Recommendations to the User or His Designated Agent NN-6-9 Cautionary Advice Provided to the User
787	NN-6-10 Guidance Code to Users and Their Designated Agents NN-6-11 User–Manufacturer Rules

Published By	Publication Date	Number of Pages
ASME	2019	796


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Standard Title	ASME BPVC – VIII – 1 -2019 BPVC Section VIII-Rules for Construction of Pressure Vessels Division 1
Published Code	ASME
Publication Date	2019
Pages Count	796

ASME BPVC VIII 1 2019

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