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Nuclear Technology Volume 16, 1972 - Issue 1: Reactor Materials Performance
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Technical Paper

Estimates of Creep-Fatigue Interaction in Irradiated and Unirradiated Austenitic Stainless Steels

C. R. BrinkmanAerojet Nuclear Company, P. O. Box 1845, Idaho Falls, Idaho 83401
,
G. E. KorthAerojet Nuclear Company, P. O. Box 1845, Idaho Falls, Idaho 83401
&
R. R. HobbinsAerojet Nuclear Company, P. O. Box 1845, Idaho Falls, Idaho 83401
Pages 297-307 | Published online: 10 May 2017

REFERENCES

  • T. T. CLAUDSON, “Fabrication History of Alloys Used in the Irradiation Effects on Reactor Structural Materials Program,” BNWL-CC-236, Pacific Northwest Laboratories (1965).
  • J. M. BEESTON and C. R. BRINKMAN, “Irradiation Effects on Structural Alloys for Nuclear Reactor Applications,” ASTM-STP 484, p. 419, American Society for Testing and Materials (1970).
  • T. SLOT, R. H. STENTZ, and J. T. BERLING, “Controlled-Strain Testing Procedures,” Manual on Low Cycle Fatigue, ASTM-STP 465, American Society for Testing Materials (1969).
  • C. H. WELLS, C. P. SULLIVAN, and M. GELL, “Metal Fatigue Damage—Mechanism, Detection, Avoidance, and Repair,” ASTM-STP 495, p. 61, American Society for Testing and Materials (1971).
  • J. H. DRIVER, “The Effect of Boundary Precipitates on the High-Temperature Fatigue Strength of Austenitic Stainless Steels,” Metal Sci. J., 5, 47 (1970).
  • F. GAROFALO, F. VONGEMMINGEN, and W. F. DOMIS, “The Creep Behavior of an Austenitic Stainless Steel as Effected by Carbides Precipitated on Dislocations,” ASM Trans., 54, 431 (1961).
  • J. T. BARNBY and F. M. PEACE, “The Effect of Carbides on the High Strain Fatigue Resistance of an Austenitic Stainless Steel,” Acta Met., 19, 1351 (1971).
  • J. B. CONWAY, “An Analysis of the Relaxation Behavior of AISI 304 and 316 Stainless Steel at Elevated Temperature,” GEMP-730 (1969).
  • D. T. RASKE and J. D. MORROW, “Mechanics of Materials in Low Cycle Fatigue Testing,” Manual on Low Cycle Fatigue, ASTM-STP 465, American Society for Testing and Materials (1969).
  • Interpretations of ASME Boiler and Pressure Vessel Code, Code Case 1331-5, American Society of Mechanical Engineers (June 1971).
  • R. D. CAMPBELL, “Creep and Fatigue Interaction Correlation for 304 Stainless Steel Subjected to Strain-Controlled Cycling with Hold Times at Peak Strain,” ASME-71-PVP-6, American Society of Mechanical Engineers (1971).
  • G. V. SMITH, “An Evaluation of the Yield, Tensile, Creep, and Rupture Strengths of Wrought 304, 316, 321 and 347 Stainless Steels at Elevated Temperatures,” ASTM Data Series DS-5S2, p. 61, American Society for Testing and Materials (1961).
  • A. J. LOVELL, “Uniaxial Creep-Rupture Studies,” BNWL-1144, p. 12, Pacific Northwest Laboratories (1969).
  • C. R. BRINKMAN, G. E. KORTH, and J. M. BEESTON, “The Influence of Irradiation on the Creep-Fatigue Behavior of Several Austenitic Stainless Steels and Incoloy 800 at 700 C,” submitted to American Society for Testing and Materials, for publication in a forthcoming STP.
  • E. P. ESZTERGAR, “Creep-Fatigue Interaction and Cumulative Damage Evaluations for Type 304 Stainless Steel,” ORNL-4757, Oak Ridge National Laboratory ( to be released).
  • S. S. MANSON, G. R. HALFORD, and M. H. HIRSCHBERG, “Creep-Fatigue Analysis by Strain Range Partitioning,” NASA TMX-67838, National Aeronautics and Space Administration (1971).
  • G. R. HALFORD, NASA Lewis Research Center, Cleveland, Ohio, Private Communication (November 1971).

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