ASME has established procedures to authorize qualified organizations to perform various activities in accordance with the requirements of the ASME Boiler and Pressure Vessel Code. It is the aim of the Society to provide recognition of organizations so authorized. An organization holding authorization to perform various activities in accordance with the requirements of the Code may state this capability in its advertising literature.

In 1911, The American Society of Mechanical Engineers established the Boiler and Pressure Vessel Committee to formulate standard rules for the construction of steam boilers and other pressure vessels. In 2009, the Boiler and Pressure Vessel Committee was superseded by the following committees:
(a) Committee on Power Boilers (I)
(b) Committee on Materials (II)
(c) Committee on Construction of Nuclear Facility Components (III)
(d) Committee on Heating Boilers (IV)
(e) Committee on Nondestructive Examination (V)
(f) Committee on Pressure Vessels (VIII)
(g) Committee on Welding, Brazing, and Fusing (IX)
(h) Committee on Fiber-Reinforced Plastic Pressure Vessels (X)
(i) Committee on Nuclear Inservice Inspection (XI)
(j) Committee on Transport Tanks (XII)
(k) Committee on Overpressure Protection (XIII)
(l) Technical Oversight Management Committee (TOMC)
Where reference is made to "the Committee" in this Foreword, each of these committees is included individually and collectively.
The Committee's function is to establish rules of safety relating to pressure integrity, which govern the construction" of boilers, pressure vessels, transport tanks, and nuclear components, and the inservice inspection of nuclear components and transport tanks. For nuclear items other than pressure-retaining components, the Committee also establishes rules of safety related to structural integrity. The Committee also interprets these rules when questions arise regarding their intent. The technical consistency of the Sections of the Code and coordination of standards development activities of the Committees is supported and guided by the Technical Oversight Management Committee. This Code does not address other safety issues relating to the construction of boilers, pressure vessels, transport tanks, or nuclear components, or the inservice inspection of nuclear components or transport tanks. Users of the Code should refer to the pertinent codes, standards, laws, regulations, or other relevant documents for safety issues other than those relating to pressure integrity and, for nuclear items other than pressure-retaining components, structural integrity. Except for Sections XI and XII, and with a few other exceptions, the rules do not, of practical necessity, reflect the likelihood and consequences of deterioration in service related to specific service fluids or external operating environments. In formulating the rules, the Committee considers the needs of users, manufacturers, and inspectors of components addressed by the Code. The objective of the rules is to afford reasonably certain protection of life and property, and to provide a margin for deterioration in service to give a reasonably long, safe period of usefulness. Advancements in design and materials and evidence of experience have been recognized.
This Code contains mandatory requirements, specific prohibitions, and nonmandatory guidance for construction activities and inservice inspection and testing activities. The Code does not address all aspects of these activities and those aspects that are not specifically addressed should not be considered prohibited. The Code is not a handbook and cannot replace education, experience, and the use of engineering judgment. The phrase engineering judgment refers to technical judgments made by knowledgeable engineers experienced in the application of the Code. Engineering judgments must be consistent with Code philosophy, and such judgments must never be used to overrule mandatory requirements or specific prohibitions of the Code.
The Committee recognizes that tools and techniques used for design and analysis change as technology progresses and expects engineers to use good judgment in the application of these tools. The designer is responsible for complying with Code rules and demonstrating compliance with Code equations when such equations are mandatory. The Code neither requires nor prohibits the use of computers for the design or analysis of components constructed to the requirements of the Code. However, designers and engineers using computer programs for design or analysis are cautioned that they are responsible for all technical assumptions inherent in the programs they use and the application of these programs to their design.
* The information contained in this Foreword is not part of this American National Standard (ANS) and has not been processed in accordance with ANSI's requirements for an ANS. Therefore, this Foreword may contain material that has not been subjected to public review or a consensus process. In addition, it does not contain requirements necessary for conformance to the Code.
** Construction, as used in this Foreword, is an all-inclusive term comprising materials, design, fabrication, examination, inspection, testing, certification, and overpressure protection.
The rules established by the Committee are not to be interpreted as approving, recommending, or endorsing any proprietary or specific design, or as limiting in any way the manufacturer's freedom to choose any method of design or any form of construction that conforms to the Code rules.
The Committee meets regularly to consider revisions of the rules, new rules as dictated by technological development, Code Cases, and requests for interpretations. Only the Committee has the authority to provide official interpretations of this Code. Requests for revisions, new rules, Code Cases, or interpretations shall be addressed to the Secretary in writing and shall give full particulars in order to receive consideration and action (see Submittal of Technical Inquiries to the Boiler and Pressure Vessel Standards Committees). Proposed revisions to the Code resulting from inquiries will be presented to the Committee for appropriate action. The action of the Committee becomes effective only after confirmation by ballot of the Committee and approval by ASME. Proposed revisions to the Code approved by the Committee are submitted to the American National Standards Institute (ANSI) and published at http://go.asme.org/BPVCPublicReview to invite comments from all interested persons. After public review and final approval by ASME, revisions are published at regular intervals in Editions of the Code.
The Committee does not rule on whether a component shall or shall not be constructed to the provisions of the Code. The scope of each Section has been established to identify the components and parameters considered by the Committee in formulating the Code rules.
Questions or issues regarding compliance of a specific component with the Code rules are to be directed to the ASME Certificate Holder (Manufacturer). Inquiries concerning the interpretation of the Code are to be directed to the Committee. ASME is to be notified should questions arise concerning improper use of the ASME Single Certification Mark.
When required by context in this Section, the singular shall be interpreted as the plural, and vice versa, and the feminine, masculine, or neuter gender shall be treated as such other gender as appropriate.
The words "shall," "should," and "may" are used in this Standard as follows:
- Shall is used to denote a requirement.
- Should is used to denote a recommendation.
- May is used to denote permission, neither a requirement nor a recommendation.

List of Sections xxv

Foreword xxvi

Statement of Policy on the Use of the ASME Single Certification Mark and Code Authorization in Advertising xxviii

Statement of Policy on the Use of ASME Marking to Identify Manufactured Items xxviii

Personnel xxix

Correspondence With the Committee li

Organization of Section III liii

Summary of Changes lvi

Cross-Referencing in the ASME BPVC lx

Subsection HA General Requirements 1

Subpart A Metallic Materials 1

      Article HAA-1000 Introduction 1

      HAA-1100 General 1

      HAA-1110 Scope 1

      HAA-1120 Definitions 1

      HAA-1130 Limits of These Rules 1

      Article HAA-2000 Classification of Components and Supports 3

      HAA-2100 3

      HAA-2120 Purpose of Classifying Items of a Nuclear Power Plant 3

      HAA-2130 Classifications and Rules of Division 5 3

      Article HAA-3000 Responsibilities and Duties 4

      HAA-3100 4

      HAA-3120 Certification 4

      HAA-3200 4

      HAA-3250 Provision of Design Specifications 4

      HAA-3300 4

      HAA-3310 4

      Article HAA-7000 Reference Standards 5

      HAA-7100 General Requirements 5

      Article HAA-8000 Nameplates, Stamping With the Certification Mark, and Reports 6

      HAA-8100 Authorization to Perform Code Activities 6

      HAA-8110 General 6

      HAA-8200 Nameplates and Stamping With Certification Mark 6

      HAA-8210 General Requirements 6

      HAA-8300 Certification Mark 6

      HAA-8310 General Requirements 6

      HAA-8400 Data Reports 6

      HAA-8410 General Requirements 6

      Article HAA-9000 Glossary 10

      HAA-9100 Introduction 10

      HAA-9200 Definitions 10

Subpart B Graphite and Composite Materials 11

      Article HAB-1000 Introduction 11

      HAB-1100 General 11

      HAB-1110 Scope 11

      HAB-1120 Definitions 11

      HAB-1130 Limits of These Rules 11

      HAB-1140 Use of Code Editions and Cases 11

      HAB-1150 Units of Measurement 12

      HAB-1200 General Requirements for Items and Installation 12

      HAB-1210 Core Assembly 12

      HAB-1220 Materials 12

      HAB-1280 Installation 12

      Article HAB-2000 Classification of Core Components 13

      HAB-2100 General Requirements 13

      HAB-2110 Scope 13

      HAB-2130 Code Classes and Rules of Division 5 13

      HAB-2140 Design Basis 13

      Article HAB-3000 Responsibilities and Duties 15

      HAB-3100 General 15

      HAB-3110 Responsibilities Versus Legal Liabilities 15

      HAB-3120 Certification 15

      HAB-3200 Owner's Responsibilities 16

      HAB-3220 Categories of the Owner's Responsibilities 16

      HAB-3230 Owner's Certificate 16

      HAB-3240 Provision of Adequate Supporting Structures 17

      HAB-3250 Provision of Design Specifications 17

      HAB-3260 Review of Design Report 18

      HAB-3280 Owner's Data Report and Filing 18

      HAB-3290 Owner's Responsibility for Records 18

      HAB-3300 Responsibilities of a Designer 18

      HAB-3320 Categories of the Designer's Responsibility 18

      HAB-3330 Obtaining a Certificate 18

      HAB-3340 Design Drawings and Construction Specification 18

      HAB-3350 Requirements for Design Output Documents 19

      HAB-3360 Certification of the Construction Specification, Design Drawings, and Design Report 19

      HAB-3370 Revision of Design Drawings and Construction Specification 19

      HAB-3380 Certification of Construction Report 19

      HAB-3400 Responsibilities of a GC Certificate Holder 20

      HAB-3420 Categories of the GC Certificate Holder's Responsibilities 20

      HAB-3430 Obtaining a Certificate 20

      HAB-3440 Compliance With This Subpart and Subsection HH 20

      HAB-3450 Construction Documents 20

      HAB-3460 Responsibility for Quality Assurance 21

      HAB-3800 Material Organizations 21

      HAB-3820 Certification or Qualification of Material Organizations 21

      HAB-3830 Responsibilities of Material Organizations 21

      HAB-3840 Evaluation of the Program 21

      HAB-3860 Certification Requirements 23

      Article HAB-4000 Quality Assurance Requirements 25

      HAB-4100 Requirements 25

      HAB-4110 Scope and Applicability 25

      HAB-4120 Definitions 25

      HAB-4130 Establishment and Implementation 25

      HAB-4500 Graphite and Composite Material Organization Quality System Program Requirements 29

      HAB-4550 Quality System Program Requirements 29

      Article HAB-5000 Authorized Inspection 34

      HAB-5100 Introduction 34

      HAB-5110 Applicability 34

      HAB-5120 Performance of Inspection 34

      HAB-5130 Access for Inspection Agency Personnel 35

      HAB-5200 Duties of Inspectors 35

      HAB-5210 General Inspection Duties 35

      HAB-5220 Categories of Duties for Inspectors 35

      HAB-5230 Scope of Work, Design Specifications, and Design Reports 35

      HAB-5240 Quality Assurance Programs 36

      HAB-5250 Qualification Records 36

      HAB-5260 Materials and Core Components 36

      HAB-5270 Examinations and Tests 36

      HAB-5290 Data Reports and Construction Reports 36

      HAB-5300 Responsibilities of the Authorized Inspection Agency 37

      Article HAB-7000 Reference Standards 38

      HAB-7100 General Requirements 38

      Article HAB-8000 Certificates and Data Reports 39

      HAB-8100 Authorization to Perform Code Activities 39

      HAB-8110 General 39

      HAB-8120 Scope of Certificates 39

      HAB-8130 Inspection Agreement Required 39

      HAB-8140 Quality Assurance Program Requirements 39

      HAB-8150 Application for Certification 39

      HAB-8160 Evaluation 39

      HAB-8170 Issuance 39

      HAB-8180 Renewal 40

      HAB-8200 Nameplates 40

      HAB-8400 Data Reports 40

      HAB-8410 General Requirements 40

      HAB-8420 Owner's Data Report 40

      Article HAB-9000 Glossary 42

      HAB-9100 Introduction 42

      HAB-9200 Definitions 42

Subsection HB Class A Metallic Pressure Boundary Components 45

Subpart A Low Temperature Service 45

      Article HBA-1000 Introduction 45

      HBA-1100 General 45

      HBA-1110 Scope 45

      Article HBA-2000 Materials 46

      HBA-2600 Metallic Material Organizations' Quality System Programs 46

      HBA-2610 Documentation and Maintenance of Quality System Programs 46

      Article HBA-7000 Overpressure Protection 47

      HBA-7800 Marking, Stamping With Certification Mark, and Data Reports 47

      HBA-7810 Pressure Relief Valves 47

      Article HBA-8000 Nameplates, Stamping With the Certification Mark, and Reports 48

      HBA-8100 Requirements 48

Subpart B Elevated Temperature Service 49

      Article HBB-1000 Introduction 49

      HBB-1100 General 49

      HBB-1110 Scope 49

      HBB-1120 Temperature and Service Life Limits 50

      HBB-1130 Organization of Subsection HB, Subpart B 50

      Article HBB-2000 Material 51

      HBB-2100 51

      HBB-2120 Pressure-Retaining Materials 51

      HBB-2160 Deterioration of Material in Service 51

      HBB-2400 52

      HBB-2430 52

      HBB-2500 53

      HBB-2530 53

      HBB-2600 53

      HBB-2610 Documentation and Maintenance of Quality System Programs 53

      HBB-2800 Fatigue Acceptance Test 53

      Article HBB-3000 Design 54

      HBB-3100 General Requirements for Design 54

      HBB-3110 Scope, Acceptability, and Loadings 54

      HBB-3120 Special Considerations 56

      HBB-3130 General Design Rules 56

      HBB-3200 Design by Analysis 58

      HBB-3210 Design Criteria 58

      HBB-3220 Design Rules and Limits for Load-Controlled Stresses in Structures Other Than Bolts 63

      HBB-3230 Stress Limits for Load-Controlled Stresses on Bolts 77

      HBB-3240 Special Requirements for Elevated Temperature Components ., 78

      HBB-3250 Limits on Deformation-Controlled Quantities 78

      HBB-3300 Vessel Designs 78

      HBB-3310 General Requirements 78

      HBB-3330 Openings and Reinforcement 78

      HBB-3350 Design of Welded Construction 79

      HBB-3360 Special Vessel Requirements 82

      HBB-3400 Design of Class A Pumps 83

      HBB-3410 General Requirements 83

      HBB-3420 Design Considerations 84

      HBB-3430 Pump Types 85

      HBB-3500 Design of Class A Valves 85

      HBB-3510 Design Requirements 85

      HBB-3520 85

      HBB-3540 85

      HBB-3550 Cyclic Loading Requirements 86

      HBB-3600 Piping Design 86

      HBB-3610 General Requirements 86

      HBB-3620 Design Considerations 86

      HBB-3640 Pressure Design of Components 87

      HBB-3650 Analysis of Piping Components 88

      HBB-3660 Design of Welds 88

      HBB-3670 Special Piping Requirements 89

      Article HBB-4000 Fabrication and Installation 90

      HBB-4100 General Requirements 90

      HBB-4110 Introduction 90

      HBB-4200 90

      HBB-4210 90

      HBB-4240 Special Joints and Fittings - Added Rules for Division 1, NB-4240 90

      HBB-4400 91

      HBB-4420 91

      Article HBB-5000 Examination 92

      HBB-5100 General Requirements for Examination 92

      HBB-5110 General Requirements 92

      HBB-5130 Examination of Weld Edge Preparation Surfaces 92

      HBB-5200 Required Examination of Welds 92

      HBB-5210 Category A Vessel Welded Joints and Longitudinal Welded Joints in Other Components 92

      HBB-5220 Category B Vessel Welded Joints and Circumferential Welded Joints in Other Components 92

      HBB-5230 Category C Vessel Welded Joints and Similar Welded Joints in Other Components 93

      HBB-5240 Category D Vessel Welded Joints and Branch and Piping Connections in Other Components 93

      HBB-5260 Fillet, Socket, and Attachment Welds 94

      Article HBB-6000 Testing 95

      HBB-6100 General Requirements 95

      HBB-6110 Scope of Testing 95

      HBB-6120 Preparation for Testing 96

      HBB-6200 Hydrostatic Tests 97

      HBB-6210 Hydrostatic Testing Procedure 97

      HBB-6220 Hydrostatic Test Pressure Requirements 97

      HBB-6300 Pneumatic Tests 98

      HBB-6310 Pneumatic Testing Procedures 98

      HBB-6320 Pneumatic Test Pressure Requirements 98

      HBB-6400 Pressure Test Gages 99

      Article HBB-7000 Overpressure Protection 100

      HBB-7100 General Requirements 100

      HBB-7110 Scope 100

      HBB-7130 Verification of the Operation of Pressure Relief Devices 100

      HBB-7170 Permitted Use of Pressure Relief Devices 100

      HBB-7200 Content of Overpressure Protection Report 100

      HBB-7300 Relieving Capacity 100

      HBB-7600 Nonreclosing Pressure Relief Devices 101

      HBB-7610 Use of Rupture Disk Devices 101

      HBB-7620 101

      HBB-7800 Marking, Stamping With Certification Mark, and Data Reports 101

      HBB-7810 Pressure Relief Valves 101

      Article HBB-8000 Nameplates, Stamping With the Certification Mark, and Reports 102

      HBB-8100 Requirements 102

      Mandatory Appendix HBB-I-14 Tables and Figures 103

      Mandatory Appendix HBB-II Use of SA-533 Type B, Class 1 Plate and SA-508 Grade 3, Class 1 Forgings and Their Weldments for Limited Elevated Temperature Service 148

      Article HBB-II-1000 Scope 148

      Article HBB-II-2000 Material 149

      Article HBB-II-3000 Design 150

      Article HBB-II-4000 Fabrication and Installation 167

      Article HBB-II-5000 Examination 168

      Article HBB-II-6000 Testing 169

      Article HBB-II-7000 Overpressure Protection 170

      Nonmandatory Appendix HBB-T Rules for Strain, Deformation, and Fatigue Limits at Elevated Temperatures 171

      HBB-T-1100 Introduction 171

      HBB-T-1200 Deformation Limits for Functional Requirements 171

      HBB-T-1300 Deformation and Strain Limits for Structural Integrity 172

      HBB-T-1400 Creep-Fatigue Evaluation 177

      HBB-T-1500 Buckling and Instability 198

      HBB-T-1700 Special Requirements 204

      HBB-T-1800 Isochronous Stress-Strain Relations 205

      Nonmandatory Appendix HBB-U Guidelines for Restricted Material Specifications to Improve Performance in Certain Service Applications 290

      HBB-U-1100 Scope 290

      HBB-U-1200 Service Conditions 290

      HBB-U-1300 Recommended Restrictions 290

      Nonmandatory Appendix HBB-Y Guidelines for Design Data Needs for New Materials 292

      Article HBB-Y-1000 Introduction 292

      HBB-Y-1100 Scope 292

      Article HBB-Y-2000 Load-Controlled Limits 293

      HBB-Y-2100 Time-Independent Data 293

      HBB-Y-2200 Time-Dependent Data 293

      HBB-Y-2300 Requirements for Welded Construction 294

      Article HBB-Y-3000 Deformation-Controlled Limits 295

      HBB-Y-3100 Isochronous Stress-Strain Curves 295

      HBB-Y-3200 Relaxation Strength 295

      HBB-Y-3300 Creep-Fatigue Data 295

      HBB-Y-3400 Creep-Fatigue Data for Weldments 296

      HBB-Y-3500 Cyclic Stress-Strain Curves 296

      HBB-Y-3600 Inelastic Constitutive Model 297

      HBB-Y-3700 Huddleston Multiaxial Failure Criterion 297

      HBB-Y-3800 Time-Temperature Limits for External Pressure Charts 297

      Article HBB-Y-4000 Other Considerations 298

      HBB-Y-4100 Cold-Forming Limits 298

      HBB-Y-4200 Environmental Effects 298

      Nonmandatory Appendix HBB-Z Guidance on Constitutive Models for Design by Inelastic Analysis 299

      HBB-Z-1100 Introduction 299

      HBB-Z-1200 Guidance on Constructing a Constitutive Model 299

      HBB-Z-1300 Acceptable Material Models 301

Subsection HC Class B Metallic Pressure Boundary Components 306

Subpart A Low Temperature Service 306

      Article HCA-1000 Introduction 306

      HCA-1100 General 306

      HCA-1110 Scope 306

      Article HCA-8000 Nameplates, Stamping With the Certification Mark, and Reports 307

      HCA-8100 Requirements 307

Subpart B Elevated Temperature Service 308

      Article HCB-1000 Introduction 308

      HCB-1100 General 308

      HCB-1110 Scope 308

      HCB-1120 Alternative Rules 309

      Article HCB-2000 Material 310

      HCB-2100 General Requirements for Material 310

      HCB-2400 310

      HCB-2430 310

      HCB-2500 310

      HCB-2570 310

      Article HCB-3000 Design 311

      HCB-3100 General Design 311

      HCB-3110 311

      HCB-3140 Buckling Instability Loadings 311

      HCB-3150 Limitations on Use 312

      HCB-3160 Components Containing Lethal or Hazardous Substances 312

      HCB-3300 Vessel Design 312

      HCB-3310 General Requirements 312

      HCB-3400 Pump Design 312

      HCB-3500 Valve Design 313

      HCB-3510 General Requirements 313

      HCB-3600 Piping Design 313

      HCB-3630 General Requirements 313

      Article HCB-4000 Fabrication and Installation 315

      HCB-4100 General Requirements 315

      HCB-4160 Components Containing Lethal or Hazardous Substances 315

      HCB-4200 315

      HCB-4210 315

      HCB-4400 316

      HCB-4420 316

      Article HCB-5000 Examination 318

      HCB-5100 General Requirements for Examination 318

      HCB-5160 Components Containing Lethal or Hazardous Substances 318

      Article HCB-6000 Testing 319

      HCB-6100 General Requirements 319

      HCB-6110 319

      HCB-6600 319

      HCB-6630 Alternative Tests of Closure Welds and Access Hatches 319

      HCB-6640 Alternative Tests at Specially Designed Welded Seals 319

      Article HCB-7000 Overpressure Protection 320

      HCB-7100 General Requirements 320

      HCB-7110 Scope 320

      HCB-7140 320

      HCB-7200 320

      HCB-7220 Content of Report 320

      HCB-7600 321

      HCB-7610 321

      HCB-7620 321

      Article HCB-8000 Nameplates, Stamping With the Certification Mark, and Reports 322

      HCB-8100 Requirements 322

      Mandatory Appendix HCB-I Stress Range Reduction Factor for Piping 323

      Article HCB-I-1000 Stress Range Reduction Factor 323

      Article HCB-I-2000 Maximum Number of Allowable Cycles With f = 1 324

      Article HCB-I-3000 Equivalent Cycle 325

      Mandatory Appendix HCB-II Allowable Stress Values for Class B Components 326

      Article HCB-II-1000 Scope 326

      Article HCB-II-2000 Service With Negligible Creep Effects 328

      Article HCB-II-3000 Service That May Include Creep Effects 345

      Mandatory Appendix HCB-III Time-Temperature Limits for Creep and Stress-Rupture Effects 355

      Article HCB-III-1000 Introduction 355

      HCB-III-1100 Service Level A and B Loadings 355

      HCB-III-1200 Service Level C Events 355

Subsection HF Class A and Class B Metallic Supports 357

Subpart A Low Temperature Service 357

      Article HFA-1000 Introduction 357

      HFA-1100 General 357

      HFA-1110 Scope 357

Subsection HG Class SM Metallic Core Support Structures 359

Subpart A Low Temperature Service 359

      Article HGA-1000 Introduction 359

      HGA-1100 General 359

      HGA-1110 Scope 359

      Article HGA-8000 Nameplates, Stamping With the Certification Mark, and Reports 360

      HGA-8100 Requirements 360

Subpart B Elevated Temperature Service 361

      Article HGB-1000 Introduction 361

      HGB-1100 General 361

      HGB-1110 Scope 361

      HGB-1120 362

      Article HGB-2000 Material 363

      HGB-2100 General Requirements for Material 363

      HGB-2120 363

      HGB-2160 Deterioration of Material in Service 363

      HGB-2400 363

      HGB-2430 363

      Article HGB-3000 Design 364

      HGB-3100 General Design 364

      HGB-3110 364

      HGB-3120 365

      HGB-3130 366

      HGB-3200 Design by Analysis 366

      HGB-3210 Design Criteria 366

      HGB-3220 Design Rules and Limits for Load-Controlled Stresses in Structures Other Than Threaded Structural Fasteners 371

      HGB-3230 Stress Limits for Load-Controlled Stresses in Threaded Structural Fasteners 377

      HGB-3240 Special Requirements for Elevated Temperature Components 378

      HGB-3250 Limits on Deformation-Controlled Quantities 378

      HGB-3300 379

      HGB-3350 379

      Article HGB-4000 Fabrication and Installation 380

      HGB-4100 General Requirements 380

      HGB-4200 380

      HGB-4210 380

      HGB-4230 380

      HGB-4400 381

      HGB-4420 381

      Article HGB-5000 Examination 382

      HGB-5100 General Requirements for Examination 382

      HGB-5200 382

      HGB-5220 Requirements for Radiography or Ultrasonic and Liquid Penetrant or Magnetic Particle Examination 382

      Article HGB-8000 Nameplates, Stamping With the Certification Mark, and Reports 388

      HGB-8100 Requirements 388

      Mandatory Appendix HGB-I Rules for Strain, Deformation, and Fatigue Limits at Elevated Temperatures 389

      Article HGB-I-1000 Introduction 389

      Mandatory Appendix HGB-II Rules for Construction of Core Support Structures, Extended for Restricted Service at Elevated Temperature, Without Explicit Consideration of Creep and Stress-Rupture 390

      Article HGB-II-1000 Introduction 390

      HGB-II-1100 General 390

      Article HGB-II-2000 Materials 391

      HGB-II-2100 391

      HGB-II-2400 391

      Article HGB-II-3000 Design 401

      HGB-II-3100 401

      HGB-II-3200 401

      Article HGB-II-4000 Fabrication and Installation Requirements 419

      HGB-II-4100 419

      HGB-II-4200 419

      Article HGB-II-5000 Examination Requirements 420

      Mandatory Appendix HGB-III Buckling and Instability 421

      Article HGB-III-1000 General Requirements 421

      Article HGB-III-2000 Buckling Limits: Time-Independent Buckling 422

      Article HGB-III-3000 Alternative Procedures 423

      Mandatory Appendix HGB-IV Time-Temperature Limits 424

      Article HGB-IV-1000 Time-Temperature Limits 424

Subsection HH Class SN Nonmetallic Core Components 426

Subpart A Graphite Materials 426

      Article HHA-1000 Introduction 426

      HHA-1100 Scope 426

      HHA-1110 Aspects Covered 426

      HHA-1120 Environmental Effects and Limits 426

      HHA-1200 Requirements 426

      HHA-1210 General 426

      HHA-1220 Materials 426

      HHA-1230 Design 427

      HHA-1240 Graphite Core Component Machining 427

      HHA-1250 Installation 427

      HHA-1260 Responsibilities 427

      HHA-1300 Application of These Rules 427

      HHA-1400 Boundaries of Jurisdiction 427

      HHA-1410 Boundary Between Graphite Core Components and Core Support Structures 427

      HHA-1420 Boundary Between Graphite Core Components and Fuel Pebbles or Compacts 427

      HHA-1430 Other Boundaries 427

      Article HHA-2000 Materials 430

      HHA-2100 General Requirements 430

      HHA-2110 Material for Graphite Core Components 430

      HHA-2120 Certification of Material 430

      HHA-2130 Deterioration of Materials During Service 430

      HHA-2140 Material Identification 431

      HHA-2200 Material Properties for Design 431

      HHA-2210 As-Manufactured Material Properties 431

      HHA-2220 Irradiated Material Properties 431

      HHA-2230 Oxidized Material Properties 431

      HHA-2300 Sampling 431

      HHA-2310 General Requirements 431

      HHA-2400 Material Manufacturer's Quality System Program 432

      HHA-2500 Examination and Repair of Graphite Core Component Material . 432

      HHA-2510 Examination 432

      HHA-2520 Repair 432

      HHA-2600 Packaging, Transportation, and Storage 432

      Article HHA-3000 Design 433

      HHA-3100 General Design 433

      HHA-3110 Graphite Core Components 433

      HHA-3120 Loading Criteria 434

      HHA-3130 Nomenclature 434

      HHA-3140 Special Considerations 435

      HHA-3200 Design by Analysis - Graphite Core Components 436

      HHA-3210 Design Criteria for Graphite Core Components 436

      HHA-3220 Stress Limits for Graphite Core Component - Simplified Assessment 440

      HHA-3230 Probability of Failure Limits for Graphite Core Components - Full Assessment 443

      HHA-3240 Experimental Limits - Design-by-Test 444

      HHA-3300 Requirements for Design of the Graphite Core Assembly 445

      HHA-3310 General Requirements 445

      HHA-3320 Design Considerations 445

      HHA-3330 Design of the Graphite Core Assembly 446

      Article HHA-4000 Machining, Examination, and Testing 448

      HHA-4100 General Requirements 448

      HHA-4110 Introduction 448

      HHA-4120 Certification of Materials and Machining by the Graphite Core Component Manufacturer 448

      HHA-4130 Joining 448

      HHA-4200 Machining, Examination, and Testing 448

      HHA-4210 Procedures, Qualification, and Evaluation 448

      HHA-4220 Graphite Core Component Machining 449

      HHA-4230 Graphite Core Component Examination 449

      HHA-4240 Graphite Core Component Testing 450

      HHA-4250 Graphite Core Component Packaging 450

      Article HHA-5000 Installation and Examination 452

      HHA-5100 General Requirements 452

      HHA-5110 Introduction 452

      HHA-5200 Storage, Unpackaging, and Examination 452

      HHA-5210 Storage and Unpackaging 452

      HHA-5220 Examination of Graphite Core Components 452

      HHA-5300 Installation 453

      HHA-5310 Documentation 453

      HHA-5400 Examination During Installation 453

      HHA-5500 Examination Post-Installation 453

      Article HHA-8000 Nameplates, Stamping, and Reports 454

      HHA-8100 Requirements 454

      Mandatory Appendix HHA-I Graphite Material Specifications 455

      Article HHA-I-1000 Introduction 455

      HHA-I-1100 Scope 455

      Mandatory Appendix HHA-II Requirements for Preparation of a Material Data Sheet 456

      Article HHA-II-1000 Introduction 456

      Article HHA-II-2000 Material Data Sheet Forms 457

      Article HHA-II-3000 Detailed Requirements for Derivation of the Material Data Sheet - As-Manufactured Properties 462

      HHA-II-3100 Material Reliability Curve Parameters (Two Parameter for Simple Assessment) 462

      HHA-II-3200 Material Reliability Curve Parameters (Three Parameter for Full Assessment) 463

      HHA-II-3300 Design Allowable Stress Value 463

      Article HHA-II-4000 Detailed Requirements for Derivation of the Material Data Sheet - Irradiated Material Properties 467

      HHA-II-4100 General 467

      Mandatory Appendix HHA-III Requirements for Generation of Design Data for Graphite Grades 468

      Article HHA-III-1000 Scope 468

      Article HHA-III-2000 General Requirements 469

      Article HHA-III-3000 Properties to Be Determined 470

      HHA-III-3100 As-Manufactured Graphite 470

      HHA-III-3200 Oxidized Graphite 470

      HHA-III-3300 Irradiated Graphite 470

      Article HHA-III-4000 Requirement for Representative Data 471

      HHA-III-4100 As-Manufactured Graphite 471

      HHA-III-4200 Irradiated or Oxidized Graphite 471

      Article HHA-III-5000 Use of Historical Data 472

      Nonmandatory Appendix HHA-A Graphite as a Structural Material 473

      Article HHA-A-1000 Introduction 473

      HHA-A-1100 Manufacture 473

      Nonmandatory Appendix HHA-B Environmental Effects in Graphite 476

      Article HHA-B-1000 Introduction 476

      Article HHA-B-2000 Radiation Damage 477

      Article HHA-B-3000 Gas Coolant-Graphite Interactions (Oxidation) 478

      Article HHA-B-4000 Salt Coolant-Graphite Interactions 479

      Article HHA-B-5000 References 480

      Nonmandatory Appendix HHA-D Guidance on Defects and Flaws in Graphite 482

Subpart B Composite Materials 483

      Article HHB-1000 Introduction 483

      HHB-1100 Scope 483

      HHB-1110 Aspects Covered 483

      HHB-1120 Environmental Effects and Limits 483

      HHB-1200 Requirements 483

      HHB-1210 General 483

      HHB-1220 Materials 483

      HHB-1230 Design 483

      HHB-1240 Machining and Installation 484

      HHB-1250 Examination 484

      HHB-1260 Testing 484

      HHB-1270 Responsibilities 484

      HHB-1300 Application of These Rules, and Definitions 484

      HHB-1310 Application of These Rules 484

      HHB-1320 Definitions 484

      HHB-1400 Boundaries of Jurisdiction 484

      HHB-1410 Boundary Between Composite Core Components and Other Components 484

      HHB-1420 Other Boundaries 484

      Article HHB-2000 Composite Materials 485

      HHB-2100 General Requirements 485

      HHB-2110 Ceramic Composite Materials for Composite Core Components . 485

      HHB-2120 Certification of Ceramic Composite Materials 485

      HHB-2130 Deterioration of Ceramic Composite Materials During Service 486

      HHB-2140 Material Identification 486

      HHB-2200 Ceramic Composite Material Properties for Design 487

      HHB-2210 As-Manufactured Ceramic Composite Material Properties 487

      HHB-2220 Irradiated Ceramic Composite Material Properties 487

      HHB-2230 Ceramic Composite Material Properties and Chemical Attack/Oxidation 487

      HHB-2240 STT Effects on Ceramic Composite Material Properties-Creep, Stress Rupture, Slow Crack Growth, and Fatigue 488

      HHB-2300 Sampling 488

      HHB-2310 General Requirements 488

      HHB-2400 Material Manufacturer's Quality System Program 488

      HHB-2500 Examination and Repair of Composite Core Component Material 488

      HHB-2510 Examination 488

      HHB-2520 Repair 488

      HHB-2600 Packaging, Transportation, and Storage 488

      Article HHB-3000 Design 489

      HHB-3100 General Design 489

      HHB-3110 Composite Core Components 489

      HHB-3120 Loading Criteria 490

      HHB-3130 Nomenclature 491

      HHB-3140 Special Considerations 491

      HHB-3200 Design by Analysis-Composite Core Components 492

      HHB-3210 Design Criteria for Composite Core Components 492

      HHB-3220 Stress Limits for Composite Core Components 494

      HHB-3240 Experimental Limits - Design by Test 496

      HHB-3300 Requirements for Design of the Core Assembly 498

      HHB-3310 General Requirements 498

      Article HHB-4000 Machining and Installation 499

      HHB-4100 Scope and General Requirements 499

      HHB-4110 Scope 499

      HHB-4120 General Requirements 499

      HHB-4200 Identification of Materials and Machined Composite Core Components 499

      HHB-4210 Materials 499

      HHB-4220 Machined Composite Core Components 499

      HHB-4300 Composite Core Component Machining 499

      HHB-4310 General 499

      HHB-4320 Machining Facilities and Tools 500

      HHB-4330 Joining 500

      HHB-4340 Rework 500

      HHB-4350 Other Processing Steps 500

      HHB-4360 Certification of Composite Core Components 500

      HHB-4370 Composite Core Component Packaging 500

      HHB-4400 Transportation, Storage, and Unpackaging 501

      HHB-4500 Installation 501

      Article HHB-5000 Examination 502

      HHB-5100 Scope 502

      HHB-5200 General Requirements 502

      HHB-5210 Nondestructive Examination Procedures 502

      HHB-5220 Qualifications of Examination Personnel 502

      HHB-5300 Examination After Machining 502

      HHB-5310 General 502

      HHB-5320 Dimensional Examination 502

      HHB-5330 Examination for Material Imperfections and Damage 502

      HHB-5400 Examination Before Installation 503

      HHB-5500 Examination During Installation 503

      HHB-5600 Examination Post-Installation 503

      Article HHB-6000 Testing 504

      HHB-6100 Scope 504

      HHB-6200 General Requirements 504

      HHB-6300 Specific Requirements 504

      Article HHB-8000 Nameplates, Stamping, and Reports 505

      HHB-8100 Requirements 505

      Mandatory Appendix HHB-I Composite Material Specifications 506

      Article HHB-I-1000 Introduction 506

      HHB-I-1100 Scope 506

      Article HHB-I-2000 Material Specifications for Composite Materials 509

      Mandatory Appendix HHB-II Requirements for Preparation of a Material Data Sheet 510

      Article HHB-II-1000 Introduction 510

      Article HHB-II-2000 Material Data Sheet Forms 511

      Article HHB-II-3000 Detailed Requirements for Derivation of the Material Data Sheet - As-Manufactured Properties 545

      HHB-II-3100 Introduction 545

      HHB-II-3200 Definition of Material Failure Strength for Ceramic Composite Materials 545

      HHB-II-3300 Damage Tolerance and Brittle Elastic and Pseudo-Ductile Stress-Strain Curves in Ceramic Composite Materials 545

      HHB-II-3400 Material Reliability Curve Parameters (Two Parameters for Simple Assessment) 546

      HHB-II-3500 Material Reliability Curve Parameters (Three Parameters for Full Assessment) 547

      HHB-II-3600 Design Allowable Stress Value 548

      Article HHB-II-4000 Detailed Requirements for Derivation of the Material Data Sheet - Irradiated Material Properties 549

      HHB-II-4100 General 549

      Article HHB-II-5000 Detailed Requirements for Derivation of the Material Data Sheet - Material Properties Subject to Chemical Attack/Oxidation 550

      HHB-II-5100 General 550

      Article HHB-II-6000 Detailed Requirements for Derivation of the Material Data Sheet - Material Properties Subject to STT Effects 551

      HHB-II-6100 General 551

      Article HHB-II-7000 Reference 552

      Mandatory Appendix HHB-III Requirements for Generation of Design Data for Ceramic Composite Materials 553

      Article HHB-III-1000 Scope 553

      Article HHB-III-2000 General Requirements 554

      Article HHB-III-3000 Properties to Be Determined 555

      HHB-III-3100 As-Manufactured Ceramic Composite Material 555

      HHB-III-3200 Irradiated Ceramic Composite Material 555

      HHB-III-3300 Ceramic Composite Materials and Chemical Attack/Oxidation 555

      HHB-III-3400 STT Exposure of Ceramic Composite Materials 556

      Article HHB-III-4000 Requirement for Representative Data 557

      HHB-III-4100 As-Manufactured Ceramic Composite Material 557

      HHB-III-4200 Irradiated, Chemical Attack/Oxidation, and STT Ceramic Composite Material 557

      Nonmandatory Appendix HHB-A Classification of Ceramic Composite Materials for Nuclear Applications 558

      Article HHB-A-1000 Scope 558

      Article HHB-A-2000 Materials 559

      Nonmandatory Appendix HHB-B Composition, Structure, Manufacture, and Properties of Ceramic Matrix Composites 560

      Article HHB-B-1000 Introduction 560

      HHB-B-1100 Ceramic Matrix Composites 560

      HHB-B-1200 Definitions 561

      HHB-B-1300 Composition and Structure of CMCS 563

      HHB-B-1400 Manufacturing of Preforms, Densification, and Postprocessing 563

      HHB-B-1500 Mechanical, Thermal, Irradiation, and Degradation Properties 568

      Article HHB-B-2000 Summary 572

      Article HHB-B-3000 References 573

      HHB-B-3100 Applications of CMCs 573

      HHB-B-3200 Fabrication and Manufacturing of CMCs 573

      HHB-B-3300 Mechanical Properties 574

      HHB-B-3400 Thermal Properties 574

      HHB-B-3500 Degradation - Thermal, Environmental, Irradiation 575

      Nonmandatory Appendix HHB-C Fracture and Damage Mechanisms in SiC-SiC CMCs 576

      Article HHB-C-1000 Introduction 576

      HHB-C-1100 Fracture and Damage Mechanisms 576

      HHB-C-1200 Definitions 576

      HHB-C-1300 Overview of Fracture and Damage Mechanisms of SiC-SiC CMCs 577

      HHB-C-1400 Summary 581

      HHB-C-1500 References 582

      Nonmandatory Appendix HBB-D Carbon-Carbon (C-C) Composite Materials 587

      Nonmandatory Appendix HHB-E Carbon-Carbon (C-C) Composite Materials Irradiation and

      Environmental Effects 594

FIGURES

HBB-3221-1 Flow Diagram for Elevated Temperature Analysis 67

HBB-3224-1 Use-Fractions for Membrane Stress 69

HBB-3224-2 Use-Fractions for Membrane Plus Bending Stress 70

HBB-3351-1 Welded Joint Locations Typical of Categories A, B, C, and D 80

HBB-3352-1 Typical Butt Joints 81

HBB-3354-1 Permissible Attachment Weld Location 82

HBB-3361-1 Category A and B Joints Between Sections of Unequal Thickness 82

HBB-3410.2-1 Typical Single Volute Casing 83

HBB-3410.2-2 Typical Double Volute Casing 84

HBB-3421.11-1 Minimum Tangential Inlet and Outlet Wall Thickness 85

HBB-4212-1 Permissible Time/Temperature Conditions for Material Which Has Been Cold Worked >5% and <20% and Subjected to Short-Time High Temperature Transients 91

HBB-I-14.3A S_(mt) -Type 304 SS 106

HBB-I-14.3B S_(mt) -Type 316 SS 108

HBB-I-14.3C S_(mt) - Ni-Fe-Cr (Alloy 800H) 110

HBB-I-14.3D S_(mt) - 21/4Cr-1Mo 112

HBB-I-14.3E S_(mt) - 9Cr-1Mo-V 114

HBB-I-14.4A S_t - Type 304 SS 115

HBB-I-14.4B S_t— Type 316 SS 117

HBB-I-14.4C S_t - Ni-Fe-Cr (Alloy 800H) 119

HBB-I-14.4D S_t — 21/4Cr-1Mo 121

HBB-I-14.4E S_t - 9Cr-1Mo-V 123

HBB-I-14.6A Minimum Stress-to-Rupture 126

HBB-I-14.6B Minimum Stress-to-Rupture 128

HBB-I-14.6C Minimum Stress-to-Rupture - Ni-Fe-Cr (Alloy 800H) 130

HBB-I-14.6D 21/4Cr-1Mo - 100% of the Minimum Stress-to-Rupture 132

HBB-I-14.6E Minimum Stress-to-Rupture, Alloy 718 133

HBB-I-14.6F 9Cr-1Mo-V - Expected Minimum Stress-to-Rupture, ksi (MPa) 134

HBB-I-14.13A S_(mt) - Allowable Stress Intensity, Type 304 SS, Bolting 145

HBB-I-14.13B S_(mt) - Allowable Stress Intensity, Type 316 SS, Bolting 146

HBB-I-14.13C S_(mt) -Allowable Stress, Alloy 718, Bolting 146

HBB-II-3000-1 S_(mt) Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 151

HBB-II-3000-2 S_t Allowable Stress Intensity Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 152

HBB-II-3000-3 Stress-to-Rupture (Minimum) for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 153

HBB-II-3000-4 Isochronous Stress-Strain Curves for 700°F (371°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 154

HBB-II-3000-5 Isochronous Stress-Strain Curves for 750°F (399°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 155

HBB-II-3000-6 Isochronous Stress-Strain Curves for 800°F (427°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 156

HBB-II-3000-7 Isochronous Stress-Strain Curves for 850°F (454°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 157

HBB-II-3000-8 Isochronous Stress-Strain Curves for 900°F (482°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 158

HBB-II-3000-9 Isochronous Stress-Strain Curves for 950°F (510°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 159

HBB-II-3000-10 Isochronous Stress-Strain Curves for 1,000°F (538°C) for SA-533 Type B， Class 1 and SA-508 Grade 3, Class 1 160

HBB-II-3000-11 Design Fatigue Strain Range for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 161

HBB-II-3000-12 Creep-Fatigue Damage Envelope for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 162

HBB-II-3000-13 St Versus Time-Isothermal Curves for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 163

HBB-II-3000-14 Minimum Stress Rupture as a Function of Time and Temperature for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 164

HBB-T-1332-1 Effective Creep Stress Parameter Z for Simplified Inelastic Analysis Using Test No. B-1 . 176

HBB-T-1332-2 Effective Creep Stress Parameter Z for Simplified Inelastic Analysis Using Test No. B-2 . 177

HBB-T-1420-1A Design Fatigue Strain Range, є_t, for 304 SS 181

HBB-T-1420-1B Design Fatigue Strain Range, є_t, for 316 SS 183

HBB-T-1420-1C Design Fatigue Strain Range, є_t, for Ni-Fe-Cr Alloy 800H 185

HBB-T-1420-1D Design Fatigue Strain Range, є_t, for 21/4Cr-1Mo Steel 187

HBB-T-1420-1E Design Fatigue Strain Range, є_t, for 9Cr-1Mo-V Steel 188

HBB-T-1420-2 Creep-Fatigue Damage Envelope 190

HBB-T-1432-1 Stress-Strain Relationship 192

HBB-T-1432-2 Inelastic Multiaxial Adjustments 193

HBB-T-1432-3 Adjustment for Inelastic Biaxial Poisson's Ratio 194

HBB-T-1433-1 Methods of Determining Relaxation 196

HBB-T-1433-2 Stress-Relaxation Limits for Creep Damage 196

HBB-T-1433-3 Stress-Relaxation Limits for Creep Damage 197

HBB-T-1433-4 Envelope Stress-Time History for Creep Damage Assessment 197

HBB-T-1522-1 Time-Temperature Limits for Application of Section II External Pressure Charts 201

HBB-T-1522-2 Time-Temperature Limits for Application of Section II External Pressure Charts 202

HBB-T-1522-3 Temperature Limits for Application of Section II External Pressure Charts 203

HBB-T-1831-1 Average Isochronous Stress-Strain Curves 209

HBB-T-1831-2 Average Isochronous Stress-Strain Curves 210

HBB-T-1831-3 Average Isochronous Stress-Strain Curves 211

HBB-T-1831-4 Average Isochronous Stress-Strain Curves 212

HBB-T-1831-5 Average Isochronous Stress-Strain Curves 213

HBB-T-1831-6 Average Isochronous Stress-Strain Curves 214

HBB-T-1831-7 Average Isochronous Stress-Strain Curves 215

HBB-T-1831-8 Average Isochronous Stress-Strain Curves 216

HBB-T-1831-9 Average Isochronous Stress-Strain Curves 217

HBB-T-1831-10 Average Isochronous Stress-Strain Curves 218

HBB-T-1831-11 Average Isochronous Stress-Strain Curves 219

HBB-T-1831-12 Average Isochronous Stress-Strain Curves 220

HBB-T-1831-13 Average Isochronous Stress-Strain Curves 221

HBB-T-1831-14 Average Isochronous Stress-Strain Curves 222

HBB-T-1831-15 Average Isochronous Stress-Strain Curves 223

HBB-T-1831-16 Average Isochronous Stress-Strain Curves 224

HBB-T-1831-17 Average Isochronous Stress-Strain Curves 225

HBB-T-1832-1 Average Isochronous Stress-Strain Curves 231

HBB-T-1832-2 Average Isochronous Stress-Strain Curves 232

HBB-T-1832-3 Average Isochronous Stress-Strain Curves 233

HBB-T-1832-4 Average Isochronous Stress-Strain Curves 234

HBB-T-1832-5 Average Isochronous Stress-Strain Curves 235

HBB-T-1832-6 Average Isochronous Stress-Strain Curves 236

HBB-T-1832-7 Average Isochronous Stress-Strain Curves 237

HBB-T-1832-8 Average Isochronous Stress-Strain Curves 238

HBB-T-1832-9 Average Isochronous Stress-Strain Curves 239

HBB-T-1832-10 Average Isochronous Stress-Strain Curves 240

HBB-T-1832-11 Average Isochronous Stress-Strain Curves 241

HBB-T-1832-12 Average Isochronous Stress-Strain Curves 242

HBB-T-1832-13 Average Isochronous Stress-Strain Curves 243

HBB-T-1832-14 Average Isochronous Stress-Strain Curves 244

HBB-T-1832-15 Average Isochronous Stress-Strain Curves 245

HBB-T-1832-16 Average Isochronous Stress-Strain Curves 246

HBB-T-1832-17 Average Isochronous Stress-Strain Curves 247

HBB-T-1833-1 Average Isochronous Stress-Strain Curves 250

HBB-T-1833-2 Average Isochronous Stress-Strain Curves 251

HBB-T-1833-3 Average Isochronous Stress-Strain Curves 252

HBB-T-1833-4 Average Isochronous Stress-Strain Curves 253

HBB-T-1833-5 Average Isochronous Stress-Strain Curves 254

HBB-T-1833-6 Average Isochronous Stress-Strain Curves 255

HBB-T-1833-7 Average Isochronous Stress-Strain Curves 256

HBB-T-1833-8 Average Isochronous Stress-Strain Curves 257

HBB-T-1833-9 Average Isochronous Stress-Strain Curves 258

HBB-T-1833-10 Average Isochronous Stress-Strain Curves 259

HBB-T-1833-11 Average Isochronous Stress-Strain Curves 260

HBB-T-1833-12 Average Isochronous Stress-Strain Curves 261

HBB-T-1833-13 Average Isochronous Stress-Strain Curves 262

HBB-T-1834-1 Average Isochronous Stress-Strain Curves 266

HBB-T-1834-2 Average Isochronous Stress-Strain Curves 267

HBB-T-1834-3 Average Isochronous Stress-Strain Curves 268

HBB-T-1834-4 Average Isochronous Stress-Strain Curves 269

HBB-T-1834-5 Average Isochronous Stress-Strain Curves 270

HBB-T-1834-6 Average Isochronous Stress-Strain Curves 271

HBB-T-1834-7 Average Isochronous Stress-Strain Curves 272

HBB-T-1834-8 Average Isochronous Stress-Strain Curves 273

HBB-T-1834-9 Average Isochronous Stress-Strain Curves 274

HBB-T-1834-10 Average Isochronous Stress-Strain Curves 275

HBB-T-1834-11 Average Isochronous Stress-Strain Curves 276

HBB-T-1835-1 Average Isochronous Stress-Strain Curves 279

HBB-T-1835-2 Average Isochronous Stress-Strain Curves 280

HBB-T-1835-3 Average Isochronous Stress-Strain Curves 281

HBB-T-1835-4 Average Isochronous Stress-Strain Curves 282

HBB-T-1835-5 Average Isochronous Stress-Strain Curves 283

HBB-T-1835-6 Average Isochronous Stress-Strain Curves 284

HBB-T-1835-7 Average Isochronous Stress-Strain Curves 285

HBB-T-1835-8 Average Isochronous Stress-Strain Curves 286

HBB-T-1835-9 Average Isochronous Stress-Strain Curves 287

HBB-T-1835-10 Average Isochronous Stress-Strain Curves 288

HBB-T-1835-11 Average Isochronous Stress-Strain Curves 289

HBB-Y-3000-1 Conceptual Creep-Fatigue Damage Envelope 296

HCB-4215-1 Permissible Time/Temperature Conditions for Material That Has Been Cold Worked >5% and <20% and Subjected to Short-Time, High-Temperature Transients 317

HCB-II-1000-1 Determination of Allowable Stress, S, for Class B Components 327

HCB-III-1000-1 Time-Temperature Limits for Service Level A and B Events 356

HGB-3224-1 Use-Fractions for Membrane Stress 375

HGB-3224-2 Use-Fractions for Membrane Plus Bending Stress 375

HGB-5223-1 Full Penetration Corner Weld Details for Category C Joints 384

HGB-5224.2-1 Nozzles Joined by Full Penetration Corner Welds 385

HGB-5224.3-1 Deposited Weld Metal Used as Reinforcement of Openings for Nozzles 386

HGB-5224.4-1 Oblique Connections 387

HGB-IV-1000-1 Time at Elevated Temperature, hr 425

HHA-1400-1 Jurisdictional Boundary for Graphite Core Components and Assemblies - Circumferential Section View 428

HHA-1400-2 Jurisdictional Boundary for Graphite Core Components and Assemblies - Longitudinal Section View 429

HHA-3221-1 Design Allowable Stresses Flowchart for SRC-1 Graphite Core Component 447

HHA-II-3100-1 Pivotal Quantity t(n;0.95) of the Shape Parameter of the Two Parameter m_(0.05) Weibull Distribution 464

HHA-II-3100-2 Pivotal Quantity t'(n ;0.95) of the Characteristic Stress Parameter S_(c0.05) of the Two Parameter Weibull Distribution 465

HHA-A-1100-1 473

HHA-1160-1 Extrusion 475

HHA-1160-2 Molding 475

HHA-B-3000-1 Example of Dependence of Strength on Weight Loss in a Certain Graphite Grade Oxidized Uniformly 478

HHB-3221-1 Allowable Stresses Flowchart for SRC-1 and SRC-3 Composite Core Components 495

HHB-II-3300-1 Stress-Strain Curves for WIC Composites 546

HHB-II-3300-2 On-Axis (0 deg/90 deg) and Off-Axis (+45 deg) Tensile Loading 547

HHB-II-3300-3 Stress-Strain Curves for WMC Composites 547

HHB-B-1100-1 Three Commonly Accepted Classifications of Composites Based on Type of Matrix 561

HHB-B-1100-2 Comparison of Tensile Stress-Strain Response of Monolithic and Composite Ceramics Along With Fracture Surfaces of CMCs Showing Artifacts of Energy-Absorptive Mechanisms (i.e., Fiber Debond and Pullout) 562

HHB-B-1310-1 Specific Strength as a Function of Temperature (Note Advantages of CMCs) 564

HHB-B-1310-2 Damage and Fracture in a CMC Showing the Fiber Reinforcement, Interfacial Coating (Interphase), and the Matrix 564

HHB-B-1430-1 Examples of Fiber Architectures 567

HHB-B-1511-1 Tensile Stress-Strain Response of a 2D Woven CMC Showing Strain-Softening Behavior . 568

HHB-B-1513-1 Circumferential (Hoop) and Longitudinal Stress-Strain Response of an Interlocked 3D Braided SiC-SiC CMC 569

HHB-B-1520-1 Thermal Conductivity Parallel and Perpendicular to Fibers in a C-C-SiC CMC 570

HHB-C-1300-1 Microcrack Initiation and Propagation in a 2D CMC Reflecting Cumulative Damage Process at Increasing Strain 578

HHB-C-1300-2 Fracture Surfaces of a CMC Resulting From Macrocrack Propagation Culminating in Fiber Debond/Pullout 578

HHB-C-1310-1 Comparison ofTensile Stress-Strain Response of Unreinforced Matrix (i.e., Monolithic) and Composite Ceramic With Callouts for Various Energy-Absorptive Fracture Surfaces in CMCs 580

HHB-C-1320-1 Load/Unload/Reload Stress-Strain Curves and Cumulative Damage for a 2D Woven SiC-SiC CMC 581

HHB-C-1320-2 Stress-Strain Curve, Acoustic Emission Energy, and Maximum and Residual Resistance Changes Versus Strain 582

HHB-D-2000-1 Flow Diagram for a Typical Carbon-Carbon Composite Production Process 589

HHB-E-2000-1 Mechanism of Radiation Damage in the Graphite Crystal 596

HHB-E-2000-2 Irradiation-Induced Anisotropic Dimension Change in a HOPG Crystal 596

HHB-E-2000-3 Core-Sheath Model of PAN Derived Carbon Fiber Structure 596

HHB-E-2000-4 Neutron Irradiation Induced Dimensional Changes of Several C-C Composites Irradiated at 1,112°F (600°C) 597

HHB-E-2000-5 Irradiation Dimensional Change in Two 3D, C-C Composites; Pitch and PAN Fibers 597

HHB-E-3000-1 C-C Composite Following Irradiation at 923°F (500°C) and 1，472°F (800°C) 598

HHB-E-4000-1 Temperature Dependence of Thermal Conductivity for 3D C-C Composites (a) PAN Fiber and (b) Pitch-Based Fiber 599

HHB-E-4000-2 Fractional Reduction in Thermal Conductivity as a Function of Neutron Irradiation 600

HHB- E-6000-1 Weight Loss as a Function of Time for Two Grades of 2D C-C Composites 604

TABLES

HAA-1130-1 Values of T_(max) for Various Classes of Permitted Materials 2

HAA-7100-1 Standards and Specifications Referenced in Division 5 Associated With Metallic Components 5

HAA-8110-1 Certificates and Certification Mark Issued by the Society for Construction of High Temperature Reactor Metallic Components 7

HAB-3255-1 Document Distribution for Design and Construction of Core Components and Assemblies 24

HAB-4134.17-1 Lifetime Quality Assurance Records 28

HAB-4134.17-2 Nonpermanent Quality Assurance Records 28

HAB-7100-1 Standards and Specifications Referenced in This Subpart and Subsection HH 38

HAB-8100-1 Certificates Issued by the Society for Construction of Nuclear Core Components and Core Assemblies 41

HBB-3133-1 Size Restrictions on Connections 57

HBB-3217-1 Classification of Stress Intensity in Vessels for Some Typical Cases 64

HBB-3217-2 Classification of Stress Intensity in Piping, Typical Cases 66

HBB-3225-1 Tensile Strength Values, S_u 72

HBB-3225-2 Tensile and Yield Strength Reduction Factor Due to Long Time Prior Elevated Temperature Service 73

HBB-3225-3A Yield Strength Reduction Factors for 21/4Cr-1Mo 73

HBB-3225-3B Tensile Strength Reduction Factors for 21/4Cr-1Mo 74

HBB-3225-4A Yield Strength Reduction Factors for 9Cr-1Mo-V 75

HBB-3225-4B Tensile Strength Reduction Factors for 9Cr-1Mo-V 76

HBB-3642.1-1 Bend Radius Versus Thickness 87

HBB-I-14.1(a) Permissible Base Materials for Structures Other Than Bolting 103

HBB-I-14.1(b) Permissible Weld Materials 104

HBB-I-14.2 S_o - Maximum Allowable Stress Intensity, ksi (MPa), for Design Condition Calculations 105

HBB-I-14.3A S_(mt) - Allowable Stress Intensity Values, 1,000 psi, Type 304 SS - 30-YS， 75-UTS (30-YS， 70-UTS) 107

HBB-I-14.3B S_(mt) - Allowable Stress Intensity Values, 1,000 psi, Type 316 SS - 30-YS， 75-UTS (30-YS， 70-UTS) 109

HBB-I-14.3C S_(mt) - Allowable Stress Intensity Values, ksi (MPa), Ni-Fe-Cr (Alloy 800H) 111

HBB-I-14.3D S_(mt) - Allowable Stress Intensity Values, ksi (MPa), 21/4Cr-1Mo 113

HBB-I-14.3E S_(mt) - Allowable Stress Intensity Values, ksi (MPa), 9Cr-1Mo-V 115

HBB-I-14.4A S_t -Allowable Stress Intensity Values, 1,000 psi (MPa), Type 304 SS 116

HBB-I-14.4B S_t - Allowable Stress Intensity Values, 1,000 psi (MPa), Type 316 SS 118

HBB-I-14.4C S_t - Allowable Stress Intensity Values, ksi (MPa), Ni-Fe-Cr (Alloy 800H) 120

HBB-I-14.4D S_t - Allowable Stress Intensity Values, ksi (MPa), 21/4Cr-1Mo 122

HBB-I-14.4E S_t - Allowable Stress Intensity Values, ksi (MPa), 9Cr-1Mo-V 124

HBB-I-14.5 Yield Strength Values, S_y, Versus Temperature 125

HBB-I-14.6A Expected Minimum Stress-to-Rupture Values, 1,000 psi (MPa), Type 304 SS 127

HBB-I-14.6B Expected Minimum Stress-to-Rupture Values, 1,000 psi (MPa), Type 316 SS 129

HBB-I-14.6C Expected Minimum Stress-to-Rupture Values, ksi (MPa), Ni-Fe-Cr (Alloy 800H) 131

HBB-I-14.6D 21/4Cr-1Mo - Expected Minimum Stress-to-Rupture Values, ksi (MPa) 132

HBB-I-14.6E Expected Minimum Stress-to-Rupture Values, ksi (MPa), Ni-Cr-Fe-Mo-Cb (Alloy 718) 133

HBB-I-14.6F 9Cr-1Mo-V, S_r - Expected Minimum Stress-to-Rupture Values, ksi (MPa) 135

HBB-I-14.10A-1 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 E 308T and E 308LT; SFA-5.4 E 308 and E 308L; and SFA-5.9 ER 308 and ER 308L 136

HBB-I-14.10A-2 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 EXXXT-G (16-8-2 Chemistry); SFA-5.4 E 16-8-2; and SFA-5.9 ER 16-8-2 136

HBB-I-14.10A-3 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 E 316T and E 316LT-1, -2, and -3; SFA-5.4 E 316 and E 316L; and SFA-5.9 ER 316 and ER 316L 137

HBB-I-14.10B-1 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 E 308T and E 308L T; SFA-5.4 E 308 and E 308L; and SFA-5.9 ER 308 and ER 308L 138

HBB-I-14.10B-2 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 EXXXT-G (16-8-2 Chemistry); SFA-5.4 E 16-8-2; and SFA-5.9 ER 16-8-2 139

HBB-I-14.10B-3 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 E 316T and E 316LT-1 and -2; SFA-5.4 E 316 and E 316L; and SFA-5.9 ER 316 and ER 316L 140

HBB-I-14.10C-1 Stress Rupture Factors for Alloy 800H Welded With SFA-5.11 ENiCrFe-2 (INCO A) 141

HBB-I-14.10C-2 Stress Rupture Factors for Alloy 800H Welded With SFA-5.14 ERNiCr-3 (INCO 82) 142

HBB-I-14.10D-1 Stress Rupture Factors for 21/4Cr-1Mo (60/30) Welded With SFA-5.28 E 90C-B3; SFA-5.28 ER 90S-B3; SFA-5.5 E 90XX-B3 (>0.05C); SFA-5.23 EB 3; SFA-5.23 ECB 3 (>0.05C); SFA-5.29 E 90T1-B3 (>0.05C) 143

HBB-I-14.10E-1 Stress Rupture Factors for 9Cr-1Mo-V Welded With SFA-5.28 ER90S-B91; SFA-5.5 E90XX-B91; SFA-5.23 EB91 144

HBB-I-14.11 Permissible Materials for Bolting 144

HBB-I-14.12 S_o Values for Design Conditions Calculation of Bolting Materials S_o Maximum Allowable Stress Intensity, ksi (MPa) 145

HBB-I-14.13C S_(mt) - Allowable Stress Values, ksi (MPa), Alloy 718, Bolting 147

HBB-II-3000-1 S_(mt) - Allowable Stress Intensity Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1, ksi (MPa) 164

HBB-II-3000-2 S_t - Allowable Stress Intensity Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1, ksi (MPa) 165

HBB-II-3000-3 Allowable Stress Intensity Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1, Sm Yield Strength and Tensile Strength Versus Temperature 165

HBB-II-3000-4 Expected Minimum Stress-to-Rupture Values for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1, ksi (MPa) 165

HBB-II-3000-5 Modulus of Elasticity Versus Temperature for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 165

HBB-II-3000-6 Instantaneous Coefficient of Thermal Expansion Versus Temperature for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 166

HBB-II-3000-7 Mean Coefficient of Thermal Expansion Versus Temperature for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 166

HBB-II-3000-8 Design Fatigue Strain Range for SA-533 Type B, Class 1 and SA-508 Grade 3, Class 1 Up to 1,000°F (540°C) 166

HBB-T-1323 Temperatures at Which S_m = S_t at 10~5 hr 173

HBB-T-1324 Values of the r and s Parameters 174

HBB-T-1411-1 178

HBB-T-1521-1 Time-Independent Buckling Factors 200

HBB-T-1522-1 Time-Dependent Load-Controlled Buckling Factors 200

HBB-T-1820-1 Temperature and Time Limits for Alloys in Isochronous Stress-Strain Curves 205

HBB-T-1831-1 207

HBB-T-1831-2 207

HBB-T-1831-3 207

HBB-T-1831-4 208

HBB-T-1832-1 227

HBB-T-1832-2 227

HBB-T-1832-3 228

HBB-T-1832-4 228

HBB-T-1832-5 229

HBB-T-1832-6 229

HBB-T-1832-7 230

HBB-T-1832-8 230

HBB-T-1833-1 249

HBB-T-1834-1 265

HBB-T-1834-2 265

HBB-T-1835-1 278

HBB-T-1835-2 278

HBB-U-1 Recommended Restrictions 291

HBB-Z-1212.4-1 Temperature Threshold for Class A Materials 300

HBB-Z-1322-1 Nomenclature 302

HBB-Z-1322-2 Temperature Dependent Young's Modulus 303

HBB-Z-1322.3 Temperature-Dependent Material Model Parameters 303

HBB-Z-1325-1 Nomenclature 304

HBB-Z-1325-2 Temperature-Independent Parameters 305

HBB-Z-1325-3 Temperature-Dependent Parameters 305

HCB-I-2000-1 Stress Range Reduction Factor 324

HCB-I-2000-2 Maximum Number of Cycles, N_1, Permissible With f=1 324

HCB-II-2000-1 Allowable Stress Values for Ferritic Steel Class B Components 329

HCB-II-2000-2 Allowable Stress Values for Class B Bolting Materials 334

HCB-II-2000-3 Allowable Stress Values for Austenitic Steel Class B Components 336

HCB-II-2000-4 Allowable Stress Values for High-Nickel Alloy Class B Components 343

HCB-II-2000-5 Reduction Factors for Aging 344

HCB-II-3000-1 Allowable Stress Values for Ferritic Steel Class B Components 345

HCB-II-3000-2 Allowable Stress Values for Class B Bolting 348

HCB-II-3000-3 Allowable Stress Values for Austenitic Steel Class B Components 349

HCB-II-3000-4 Allowable Stress Values for High-Nickel Alloy Class B Components 352

HCB-II-3000-5 Reduction Factors to Be Applied to Parent Metal Allowable Stresses for 304 SS Weld-ments 353

HCB-II-3000-6 Reduction Factors to Be Applied to Parent Metal Allowable Stresses for 316 SS Weld-ments 353

HCB-II-3000-7 Reduction Factors to Be Applied to Parent Metal Allowable Stresses for Alloy 800H Weldments 354

HCB-II-3000-8 Reduction Factors to Be Applied to Parent Metal Allowable Stresses for 21/4Cr-1Mo Weldments 354

HCB-II-3000-9 Reduction Factors to Be Applied to Parent Metal Allowable Stresses for Modified 9Cr-1Mo Weldments 354

HCB-III-1000-1 Maximum Metal Temperatures During Level C Events 356

HGB-3217-1 Classification of Stress Intensity for Some Typical Cases 372

HGB-II-2121-1 Design Stress Intensity Values, Sm, for Ferritic Steels at Elevated Temperatures in Core Support Structure Applications 392

HGB-II-2121-2 Design Stress Intensity Values, Sm, for Ferritic Steels at Elevated Temperatures in Threaded Structural Fastener Applications 394

HGB-II-2121-3 Design Stress Intensity Values, Sm, for Austenitic and High Nickel Alloys at Elevated Temperatures in Core Support Structure Applications 396

HGB-II-2121-4 Design Stress Intensity Values, Sm, for Austenitic and High Nickel Alloys at Elevated Temperatures in Threaded Structural Fastener Applications 399

HGB-II-3222.4-1 Design Fatigue Limits for Solution Annealed Type 304 SS 406

HGB-II-3222.4-2 Design Fatigue Limits for Solution Annealed Type 316 SS 407

HGB-II-3222.4-3 Design Fatigue Limits for Ni-Cr-Fe Alloy 800H 408

HGB-II-3222.4-4 Design Fatigue Limits for 21/4Cr-1Mo Steel 409

HGB-II-3229-1 Yield Strength Values, Sy, for Ferritic Steels at Elevated Temperatures in Core Support Structure Applications 410

HGB-II-3229-2 Yield Strength Values, Sy, for Ferritic Steels at Elevated Temperatures in Threaded Structural Fastener Applications 412

HGB-II-3229-3 Yield Strength Values, Sy, for Austenitic and High Nickel Alloys at Elevated Temperatures in Core Support Structure and Threaded Structural Fastener Applications 414

HGB-II-3229-4 Tensile Strength Values, S_u, for Ferritic Steels at Elevated Temperatures in Core Support Structure Applications 415

HGB-II-3229-5 Tensile Strength Values, S_u, for Ferritic Steels at Elevated Temperatures in Threaded Structural Fastener Applications 417

HGB-II-3229-6 Tensile Strength Values, Su, for Austenitic and High Nickel Alloys at Elevated Temperatures in Core Support Structure and Threaded Structural Fastener Applications 418

HGB-III-2000-1 Time-Independent Buckling Limits 422

HHA-3221-1 Design Allowable Probability of Failure 446

HHA-4222-1 Prohibited and Controlled Substances 451

HHA-II-2000-1 Notes on Material Data Sheet, Forms MDS-1 and MDS-2 460

HHA-II-3100-1 Normalized Upper Bounds on the Shape and Characteristic Stress Pivotal Quantities, Samples Sizes 5-120 466

HHB-3221-1 Allowable Probability of Failure 495

HHB-I-1120-1 Mandatory Ceramic Composite Material Descriptors and Properties 508

HHB-II-2000-1 Notes on Material Data Sheet, Forms MDS-3 and MDS-4 542

HHB-III-3100-1 Properties of As-Manufactured Ceramic Composite Materials 556

HHB-B-1410-1 Examples of Key Properties of SiC-Based Fibers for High Temperature CMCs 565

HHB-B-1512-1 Comparison of Strengths for 2D Woven CMCs 569

HHB-B-1520-1 Examples of Thermal and Electrical Response for Selected 2D Woven CMCs 570

HHB-B-2000-1 CMCs in Nuclear Applications 572

HHB-D-3000-1 Selected Properties of Several Commercially Available C-C Composite Materials 591

HHB-E-5000-1 Mechanical Properties of Three C-C Composites Materials - Post Irradiation Comparison 602

FORMS

MDS-1 Material Data Sheet (SI Units) 458

MDS-2 Material Data Sheet (U.S. Customary Units) 459

MDS-3 Material Data Sheet - Ceramic Composite Material (SI Units) 512

MDS-4 Material Data Sheet - Ceramic Composite Material (U.S. Customary Units) 527

ENDNOTES 607

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