43 records found.
| Title |
Bulletin No. |
Author(s) |
|---|
| Secondary Stress Indices for Integral Structural Attachments to Striaght Pipe; Stress Indices at Lug Supports on Piping Systems |
198 |
W.G. Dodge; E.C. Rodabaugh, W.G. Dodge and S.E. Moore |
| Sensitivity of the Delta Test to Steel Compositions and Variables ; Experimental Stress Analysis and Fracture Behavior of Delta Specimens |
172 |
L.J. McGeady; J.M. Barsom |
| Sensitization of Austenitic Stainless Steels; Effects of Welding Variables on HAZ Sensitization of AISI 304 and HAZ Behavior of BWR Alternative Alloys 316 NG and 347 |
319 |
C.D. Lundin, C.H. Lee, R. Menon and E.E. Stansbury |
| Significance of Fracture Extension Resistance (R Curve) Factors in Fracture-Safe Design for Nonfrangible Metals |
157 |
W.S. Pellini and R.W. Judy, Jr. |
| Simple Formulations to Evaluate Surface Impacts on Buried Steel Pipelines |
479 |
Abhinav Gupta and Rakesh Kumar Saigal |
| Simplified Methods For Creep-Fatigue Damage Evaluations And The Application To Life Extension |
394 |
M. J. Manjoine |
| Slag-Metal Interaction In Arc Welding |
15 |
N. Christensen and J. Chipman |
| Some Observations On The Brittle Fracture Problem |
57 |
G.M. Boyd |
| Special Finite Elements for Piping Elbows and Bends at High Temperatures with Creep |
482 |
Ted L. Anderson and Gregory W. Brown |
| Specimen Thickness Effects for Elastic-Plastic CTOD Toughness of an A36 Steel ; An Analytical and Experimental Comparison of Rectangular and Square CTOD Fracture Specimens of an A36 Steel |
328 |
G.W. Wellman, W.A. Sorem, R.H. Dodds, Jr., and S.T. Rolfe ; W.A. Sorem, R.H. Dodds, Jr. and S.T. Rolfe |
| Stainless Steel For Pressure Vessels |
31 |
A. Grodner |
| Stainless Steel Weld Metal – Prediction of Ferrite Content |
519 |
Damian Kotecki |
| Stainless Steel Weld Metal: Prediction Of Ferrite Content |
342 |
C. N. McCowan, T. A. Siewert and D. L. Olson |
| Standardized Flexibility Factor Method With Piping Burst And Cyclic Moment Tests For Induction Bends And 6061-T6 And SS 04 Transition Joints: I) Standardized Method for Developing Flexibility Factors |
463 |
I) E.C. Rodabaugh and E.A. Wais; II) E.C. Rodabaugh and G.E. Woods , III) G.E. Woods, E.C. Rodabaugh and E.G. Reineke |
| State Of Stress In A Circular Cylindrical Shell With A Circular Hole |
102 |
A.C. Eringen, A.K. Naghdi and C.C. Thiel |
| Static Tests on Longitudinally Stiffened Plate Girders |
117 |
M.A. D’Apice, D.J. Fielding and P.B. Cooper |
| Statistical Analysis of Dependence of Weld Metal Properties on Composition |
228 |
J.A. Marshall and J. Heuschkel |
| Steel Compositions And Specifications |
1 |
C.M. Parker |
| Strain Aging Behavior of Microalloyed steels ; The Fracture Toughness Behavior of ASTM A737 Grade B and Grade C Microalloyed Pressure Vessel Steels ; The Fracture Behavior of ASTM A737 Grade B and Gra |
322 |
W.A. Herman, M.A. Erazo, L.R. DePatto, M. Sekizawa and A.W. Pense ; J.A. Aadland, J.I Qureshi and A.W. Pense ; J.M. Aurrecoechea, Bi-Nan Qain and A.W. |
| Strcutural Stability Design Provisions – A Comparison of the Provisions of the CRC Guide and the Specifications of AASHO, AISC and AREA |
146 |
B.-T. Yen, J.S. Huang, P.J. Patterson and J.Brozzetti |
| Strength Of Aluminum Alloy 6061-T4 Thick-Walled Cylindrical Vessels Subjected To Internal Pressures |
58 |
J. Marin and T.-L. Weng |
| Strength Of Thick-Walled Cylindrical Vessels Under Internal Pressure For Three Steels |
67 |
J. Marin and T.-L. Weng |
| Stress Analysis Of A Circular Plate Containing A Rectangular Array Of Holes; Stress Distribution Around Periodically Spaced Holes In A Spherical Membrane Shell Under Uniform Internal Pressure |
106 |
J.B. Mahoney and V. Salerno |
| Stress Concentrations in Two Normally Intersecting Cylindrical Shells Subject to Internal Pressure; A Note on the Correlation of Photoelastic and Steel Model Data for Nozzle Connections in Cylindrical |
139 |
A.C. Erigen, A.K. Naghdi, S.S. Mahmood, C.C.Thiel and T. Ariman; F. Sellars |
| Stress Corrosion Cracking Of Stainless Steels - Part I: Practical Experiences - Part Ii: An Investigation Of The Suitability Of The U-Bend Specimen |
6 |
H. Nathorst |
