ASME BPVC III 1 NC 2015
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ASME BPVC – III – 1 – NC -2015 BPVC Section III, Rules for Construction of Nuclear Facility Components, Division 1, Subsection NC, Class 2 Component
| Published By | Publication Date | Number of Pages |
| ASME | 2015 | 352 |
None
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 48 | NC-1132.2-1 Attachments in the Component Support Load Path That Do Not Perform a Pressure-Retaining Function |
| 49 | NC-1132.2-2 Attachments That Do Not Perform a Pressure-Retaining Function and Are Not in the Component Support Load Path (Nonstructural Attachments) |
| 50 | NC-1132.2-3 Attachments That Perform a Pressure-Retaining Function |
| 57 | NC-2311(a)-1 Exemptions From Impact Testing Under NC-2311(a)(8) |
| 58 | NC-2332.1-1 Required Cv Lateral Expansion Values for Pressure-Retaining Material Other Than Bolting |
| 59 | NC-2332.1-2 Required Cv Energy Values for Pressure-Retaining Material Other Than Bolting NC-2332.3-1 Required Cv Values for Bolting Material Tested in Accordance With NC-2332.3 |
| 63 | NC-2432.1-1 Sampling of Welding Materials for Chemical Analysis NC-2432.2-1 Welding Material Chemical Analysis |
| 65 | NC-2433.1-1 Weld Metal Delta Ferrite Content |
| 70 | NC-2571-1 Required Examinations |
| 73 | NC-2575.2-1 Typical Pressure-Retaining Parts of Pumps and Valves |
| 82 | NC-3133.8-1 Chart for Determining Wall Thickness of Tubes Under External Pressure |
| 84 | NC-3215.1(a)-1 Pressure and Temperature Relationships |
| 85 | NC-3217-1 Stress Intensity k Factors for Design and Service Load Combinations |
| 91 | NC-3224.6-1 Design Curves for Torispherical Heads and 2:1 Ellipsoidal Heads for Use With NC-3224.8 and NC-3224.6 |
| 93 | NC-3224.13(b)(6)(-a)-1 Inherent Reinforcement for Large End of Cone–Cylinder Junction |
| 94 | NC-3224.13(b)(6)(-b)-1 Values for Q for Large End of Cone–Cylinder Junction |
| 95 | NC-3224.13(c)(6)(-a)-1 Inherent Reinforcement for Small End of Cone–Cylinder Junction |
| 96 | NC-3224.13(c)(6)(-b)-1 Values for Q for Small End of Cone–Cylinder Junction |
| 97 | NC-3224.13(d)-1 Cone–Cylinder Junction at Small End Treated as Opening |
| 99 | NC-3225-1 Typical Flat Heads and Supported and Unsupported Tubesheets With Hubs |
| 100 | NC-3225-2 Some Acceptable Types of Unstayed Flat Heads and Covers |
| 101 | NC-3225-3 Attachment of Pressure Parts to Plates to Form a Corner Joint |
| 103 | NC-3234.2(a)-1 Nozzle Nomenclature and Dimensions |
| 105 | NC-3239.1(b)-1 Examples of Acceptable Transition Details NC-3239.3(a)-1 Required Minimum Reinforcing Area, Ar |
| 106 | NC-3239.4-1 Limits of Reinforcing Zone |
| 107 | NC-3239.7-1 Stress Indices for Internal Pressure Loading |
| 112 | NC-3266-1 Minimum Number of Pipe Threads for Connections |
| 113 | NC-3321-1 Stress Limits for Design and Service Loadings |
| 114 | NC-3321-2 Classification of Stress Intensity in Vessels for Some Typical Cases |
| 116 | NC-3324.2-1 Principal Dimensions of Typical Heads NC-3324.2-1 Values of Factor K |
| 119 | NC-3324.8(b)-1 Values of Factor M |
| 120 | NC-3324.11(b)(2)-1 Values of Δ for Junctions at the Large Cylinder for α ≤ 30 deg NC-3324.11(b)(3)-1 Values of Δ for Junctions at the Small Cylinder for α ≤ 30 deg |
| 121 | NC-3324.11(a)(6)-1 Large Head Openings, Reverse Curve, and Conical Shell Reducer Sections |
| 123 | NC-3325-1 Some Acceptable Types of Unstayed Flat Heads and Covers |
| 124 | NC-3326.1-1 Spherically Dished Covers With Bolting Flanges |
| 126 | NC-3329(b)-1 Example of Tube Spacing With Pitch of Holes Equal in Every Row NC-3329(b)-2 Example of Tube Spacing With Pitch of Holes Unequal in Every Second Row |
| 127 | NC-3329(b)-3 Example of Tube Spacing With Pitch Holes Varying in Every Second and Third Row NC-3329(d)-1 Example of Tube Spacing With Tube Holes on Diagonal Lines |
| 128 | NC-3329(d)-2 Diagram for Determining the Efficiency of Longitudinal and Diagonal Ligaments Between Openings in Cylindrical Shells |
| 129 | NC-3329(g)-1 Diagram for Determining Equivalent Longitudinal Efficiency of Diagonal Ligaments |
| 130 | NC-3332.2-1 Chart for Determining the Value of F |
| 131 | NC-3332.2-1 Values of Spherical Radius Factor K1 |
| 133 | NC-3335(b)-1 Some Representative Configurations Describing the te Reinforcement Dimension |
| 134 | NC-3335.2-1 Arrangement of Multiple Openings NC-3335.3(b)-1 Minimum Depth for Flange of Flued Openings |
| 135 | NC-3351-1 Welded Joint Locations Typical of Categories A, B, C, and D |
| 136 | NC-3352-1 Typical Butt Joints |
| 139 | NC-3358.1(a)-1 Heads Attached to Shells |
| 141 | NC-3361-1 Butt Welding of Sections of Unequal Thicknesses |
| 144 | NC-3423-1 Typical Single Volute Casing NC-3423-2 Typical Double Volute Casing NC-3416-1 Stress and Pressure Limits for Design and Service Loadings |
| 146 | NC-3433.4-1 Minimum Tangential Inlet and Outlet Wall Thickness NC-3441.1-1 Type A Pump |
| 147 | NC-3441.1-2 Type À Pump NC-3441.1(a)-1 Type A Pump |
| 148 | NC-3441.2-1 Type B Pump NC-3441.3-1 Type C Pump |
| 149 | NC-3441.3-2 Type C Pump |
| 150 | NC-3441.4(a)-1 Type D Pump NC-3441.5-1 Type E Pump NC-3441.6(a)-1 Type F Pump NC-3441.7(a)-1 Axially Split Casing, Volute Pump, Type G |
| 151 | NC-3441.7(a)-2 Axially Split Casing, Volute Pump, Type G NC-3441.7(c)-1 Axially Split Casing, Volute Pump, Type G |
| 152 | NC-3441.7(c)(2)-1 Typical Section of Type G Pumps NC-3441.7(c)(2)-2 Typical Section of Type G Pumps |
| 153 | NC-3441.7(c)(2)-3 Typical Loads on Type G Pumps |
| 155 | NC-3441.8-1 Longitudinal Section Through Type H Pump NC-3441.8-2 Transverse Section Through Type H Pump |
| 156 | NC-3441.9-1 Type K Pump |
| 157 | NC-3441.9-2 Type K Pump |
| 160 | NC-3441.10-1 Type N Pump |
| 161 | NC-3451(a)-1 Horizontal Single‐Acting Power Pump Liquid Ends |
| 164 | NC-3521-1 Typical Sections of Valve Bodies |
| 165 | NC-3521-1 Level A, B, C, and D Service Limits |
| 167 | NC-3591.1-1 Typical Pressure Relief Devices |
| 168 | NC-3591.1-2 Typical Pressure Relief Devices |
| 169 | NC-3592.2(b)-1 Class 2 Pressure Relief Devices: Level B, C, and D Service Loadings |
| 170 | NC-3595.3-1 Valve Nozzle |
| 171 | NC-3611.2(e)-1 Stress Range Reduction Factors |
| 174 | NC-3622-1 Examples of Reversing and Nonreversing Dynamic Loads |
| 175 | NC-3641.1(a)-1 Values of A |
| 178 | NC-3643.2(b)-1 Typical Welded Branch Connections |
| 179 | NC-3643.2(b)-2 Typical Right Angle Branch Connections Made Using a Fillet Weld or a Partial Penetration Weld |
| 180 | NC-3643.3(c)(1)-1 Reinforcement of Branch Connections |
| 181 | NC-3643.3(c)(1)-2 Some Representative Configurations Describing the te Reinforcement Dimensions |
| 183 | NC-3643.4(a)-1 Reinforced Extruded Outlets |
| 186 | NC-3647.2-1 Types of Permanent Blanks |
| 191 | NC-3653.3-1 Reducing or Full Outlet Branch Connections or Tees |
| 198 | NC-3673.2(b)-1 Stress Indices, Flexibility, and Stress Intensification Factors |
| 204 | NC-3673.2(b)-2 Branch Connection Nomenclature |
| 207 | NC-3821.5-1 Design and Service Limits |
| 213 | NC-3861-1 Roof Manholes |
| 214 | NC-3862(a)-1 Flanged Roof Nozzles NC-3861-1 Roof Manholes |
| 215 | NC-3862(a)-2 Screwed or Socket Weld Roof Nozzles NC-3862(a)-1 Flanged Roof Nozzles |
| 216 | NC-3863-1 Typical Welded Bottom Outlet Elbow NC-3862(a)-2 Screwed or Socket Weld Roof Nozzles |
| 217 | NC-3863-1 Welded Bottom Outlet Elbow NC-3865-1 Platforms and Walkways NC-3865-2 Stairways |
| 218 | NC-3865-3 Stairway Rise, Run, and Angle Relationships |
| 219 | NC-3921.8-1 Design and Service Limits for Steel Tanks |
| 220 | NC-3922.1-1 Biaxial Stress Chart for Combined Tension and Compression, 30,000 psi to 38,000 psi (205 MPa to 260 MPa) Yield Strength Steels |
| 221 | NC-3922.1-2 Reduction of Design Stresses Required to Allow for Biaxial Stresses of Opposite Sign |
| 224 | NC-3923.1-1 Maximum Allowable Stress Values for Structural Members |
| 227 | NC-3932.1-1 Some Typical Free Body Diagrams for Certain Shapes of Tanks |
| 228 | NC-3932.2(d)-1 Factors for Determining Values of R1 and R2 for 2:1 Ellipsoidal Roofs and Bottoms |
| 231 | NC-3933.4(a)-1 Compression Ring Region |
| 233 | NC-3933.5(d)-1 Permissible Details of Compression Ring |
| 237 | NC-3944-1 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 25 ksi at Temperatures ≤ 300°F |
| 238 | NC-3944-1M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 175 MPa at Temperatures ≤ 150°C |
| 239 | NC-3944-2 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 30 ksi at Temperatures ≤ 300°F |
| 240 | NC-3944-2M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 210 MPa at Temperatures ≤ 150°C |
| 241 | NC-3944-3 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 35 ksi at Temperatures ≤ 300°F |
| 242 | NC-3944-3M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 245 MPa at Temperatures ≤ 150°C |
| 243 | NC-3944-4 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 40 ksi at Temperatures ≤ 300°F |
| 244 | NC-3944-4M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 280 MPa at Temperatures ≤ 150°C |
| 245 | NC-3944-5 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 45 ksi at Temperatures ≤ 300°F |
| 246 | NC-3944-5M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 315 MPa at Temperatures ≤ 150°C |
| 247 | NC-3944-6 Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 50 ksi at Temperatures ≤ 300°F |
| 248 | NC-3944-6M Design Factor Times Allowable Axial Membrane Compressive Stress Versus Radius Over Thickness for Ferrous Materials With Yield Strengths of 350 MPa at Temperatures ≤ 150°C |
| 250 | NC-3947-1 Meridional Straightness Tolerance |
| 254 | NC-4221.1-1 Maximum Difference in Cross‐Sectional Diameters |
| 255 | NC-4221.2(a)-1 Maximum Permissible Deviation e From a True Circular Form |
| 256 | NC-4221.2(a)-2 Maximum Arc Length for Determining Plus or Minus Deviation NC-4232(a)-1 Maximum Allowable Offset in Final Welded Joints |
| 257 | NC-4233-1 Butt Weld Alignment and Mismatch Tolerances for Unequal I.D. and O.D. When Components Are Welded From One Side and Fairing Is Not Performed |
| 259 | NC-4243-1 Acceptable Full Penetration Weld Details for Category C Joints |
| 260 | NC-4243-2 Attachment of Pressure Parts to Plates to Form a Corner Joint |
| 261 | NC-4243.1-1 Typical Flat Heads and Supported and Unsupported Tubesheet With Hubs |
| 262 | NC-4244(a)-1 Nozzles, Branch, and Piping Connections Joined by Full Penetration Butt Welds |
| 263 | NC-4244(b)-1 Nozzles, Branch, and Piping Connections Joined by Full Penetration Corner Welds |
| 264 | NC-4244(c)-1 Deposited Weld Metal Used as Reinforcement of Openings for Nozzles, Branch, and Piping Connections |
| 265 | NC-4244(d)-1 Some Acceptable Types of Welded Nozzles, Branch, and Piping Connections |
| 266 | NC-4244(e)-1 Some Acceptable Types of Welded Nozzles |
| 267 | NC-4244(e)-2 Some Acceptable Types of Small Fittings |
| 268 | NC-4246.1(a)-1 Typical Bottom and Bottom‐to‐Shell Joints |
| 269 | NC-4246.3-1 Typical Roof and Roof‐to‐Shell Joints |
| 270 | NC-4246.5-1 Roof Manholes |
| 271 | NC-4246.5-2 Flanged Roof Nozzles NC-4246.5-3 Screwed or Socket Weld Roof Nozzles |
| 272 | NC-4246.5-4 Welded Bottom Outlet Elbow NC-4247.6(d)-1 Minimum Size for Fillet Welds |
| 274 | NC-4250-1 Welding End Transitions Maximum Envelope |
| 275 | NC-4265-1 Acceptable Full Penetration Details to Form a Corner Joint |
| 276 | NC-4265-2 Acceptable Full Penetration Weld Details for Category C Joints NC-4266(a)-1 Nozzles Attached by Full Penetration Butt Welds |
| 278 | NC-4266(b)-1 Full Penetration Corner Welded Attachments |
| 279 | NC-4266(c)-1 Pad and Screwed Fitting Types of Welded Nozzles and Other Connections to Shells, Drums, and Headers |
| 280 | NC-4266(d)-1 Partial Penetration Weld Connections |
| 281 | NC-4267-1 Attachments |
| 289 | NC-4427-1 Fillet and Socket Weld Details and Dimensions |
| 290 | NC-4433-1 Types of Attachment Welds |
| 291 | NC-4437.2(b)-1 Some Acceptable Methods of Attaching Stiffening Rings to Shells of Cylindrical Vessels Subjected to External Pressure |
| 293 | NC-4511-1 Brazed Connections for Appurtenances and Piping |
| 294 | NC-4524-1 Maximum Design Temperatures for Brazing Filler Metal, °F (°C) |
| 295 | NC-4622.1-1 Mandatory Requirements for Postweld Heat Treatment of Welds |
| 296 | NC-4622.4(c)-1 Alternative Holding Temperatures and Times |
| 297 | NC-4622.7(b)-1 Exemptions to Mandatory PWHT |
| 301 | NC-4730-1 Penetration Assembly NC-4810(c)-1 Permissible Attachment Welds for Bellows |
| 303 | NC-5111-1 Thickness, IQI Designations, and Essential Holes, and Wire Diameters |
| 335 | NC-7734.2(a)-1 Values of F for Nonchoking Flow |
| 340 | NC-7754.2(a)-1 Values of F for Nonchoking Flow |
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