Already a subscriber?
MADCAD.com Free Trial
Sign up for a 3 day free trial to explore the MADCAD.com interface, PLUS access the
2009 International Building Code to see how it all works.
If you like to setup a quick demo, let us know at support@madcad.com
or +1 800.798.9296 and we will be happy to schedule a webinar for you.
Security check
Please login to your personal account to use this feature.
Please login to your authorized staff account to use this feature.
Are you sure you want to empty the cart?
2021 ASME BPVC Code Cases: Nuclear Components, Supplement 5, 2021
- Code Cases: Nuclear Components
- Summary of Changes
- Numeric Index
- Subject Index
- Applicability Index for Section XI Cases
- Guideline for Cross-Referencing Section XI Cases [Go to Page]
- 1 General [Go to Page]
- 1.1Purpose
- 1.2How to Use the Table
- Case N-666-2 [Go to Page]
- 1 General Requirements
- 2 Evaluation
- 3 Design
- 4 Procedure
- 5 Final Examination and Testing
- 6 Documentation
- Case N-884 [Go to Page]
- -1000 Introduction [Go to Page]
- -1100 General
- -1200 Limiting Value of Strain Rate
- -1300 Nomenclature
- -2000 Procedure to Determine Strain Rate [Go to Page]
- -2100 Strain Rate Calculation [Go to Page]
- -2110 Strain Rate for the Environmental Fatigue Design Curve Method
- -2120 Environmental Fatigue Evaluation Due to Strain Rate
- -2200 Relationship Between the Strain Rate and the Environmental Fatigue Correction Factor, Fen [Go to Page]
- -2210 Relationship Between the Strain Rate and the Fen for Simplified Method
- -2220 Relationship Between the Strain Rate and the Fen for Modified Rate Approach
- Case N-890
- Case N-898 [Go to Page]
- Article HBB-2000 Material [Go to Page]
- HBB-2100 [Go to Page]
- HBB-2160 Deterioration of Material in Service
- Article HBB-3000 Design [Go to Page]
- HBB-3200 Design by Analysis [Go to Page]
- HBB-3210 Design Criteria
- HBB-3220 Design Rules and Limits For Load-Controlled Stresses in Structures Other Than Bolts
- Article HBB-4000 Fabrication and Installation [Go to Page]
- HBB-4200 [Go to Page]
- HBB-4210
- HBB-4800 Relaxation Cracking
- Mandatory Appendices [Go to Page]
- Mandatory Appendix HBB-I-14 Tables and Figures
- Nonmandatory Appendices [Go to Page]
- Nonmandatory Appendix HBB-T Rules for Strain, Deformation, and Fatigue Limits at Elevated Temperatures [Go to Page]
- HBB-T-1300 Deformation and Strain Limits for Structural Integrity [Go to Page]
- HBB-T-1320 Satisfaction of Strain Limits Using Elastic Analysis
- HBB-T-1330 Satisfaction of Strain Limits Using Simplified Inelastic Analysis
- HBB-T-1340 Satisfaction of Strain Limits Using Elastic-Perfectly Plastic Analysis
- HBB-T-1400 Creep — Fatigue Evaluation [Go to Page]
- HBB-T-1410 General Requirements
- HBB-T-1420 Limits Using Inelastic Analysis
- HBB-T-1430 Limits Using Elastic Analysis
- HBB-T-1440 Creep-Fatigue Damage Limits Using Elastic-Perfectly Plastic Analysis
- HBB-T-1500 Buckling and Instability [Go to Page]
- HBB-T-1510 General Requirements
- HBB-T-1520 Buckling Limits
- HBB-T-1700 Special Requirements [Go to Page]
- HBB-T-1710 Special Strain Requirements at Welds
- HBB-T-1800 Isochronous Stress–Strain Relations [Go to Page]
- HBB-T-1810 Objective
- HBB-T-1820 Materials and Temperature Limits
- HBB-T-1830 Equations for the Isochronous Curves
- Nonmandatory Appendix A Physical Properties Tables
- Nonmandatory Appendix B Thermal Conductivity and Thermal Diffusivity
- Nonmandatory Appendix C Modulus of Elasticity
- Case N-924 [Go to Page]
- 1 Design Limits [Go to Page]
- 1.1 Design by Rule
- 1.2 Design by Analysis
- 2 Service Level Limits [Go to Page]
- 2.1 Load Cases
- 2.2 Analysis Model for Service Loadings [Go to Page]
- 2.2.1 Weld Region Model Boundaries
- 2.2.2 Dissimilar Metal Welds
- 2.3 Acceptance Assessment [Go to Page]
- 2.3.1 Global Check
- 2.3.2 Local Check by Simplified Inelastic Analysis
- Mandatory Appendix I Definitions [Go to Page]
- I-1 Load System, Li
- I-2 Specified Steady-State Temperature Field for Global Check, Ti(x)
- I-3 Specified Load Duration, ti
- I-4 Pseudo Yield Stress, Yglobal(x), for Global Service Check
- I-5 Von Mises Stress, σv
- I-6 EPP Analysis
- I-7 Minimum Stress to Rupture for Local Check of Service Loading, M(x,t)
- I-8 Simplified Inelastic Material Model
- I-9 Simplified Inelastic Analysis
- I-10 Cumulated Creep Damage Calculation from Simplified Inelastic Analysis
- Nonmandatory Appendix A Alternative Global Service Check [Go to Page]
- A-1 General
- A-2 Requirements
- A-3 Alternative Global Service Check Acceptance Procedure
- A-4 Additional Definition [Go to Page]
- A-4.1 Limit Load Analysis
- Case N-925 [Go to Page]