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Strain-Cycle Fatigue of Sheet and Plate Steels II: Some Practical Considerations in Applying Strain-Cycle Fatigue Concepts
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Abstract
Variability in published strain-cycle fatigue data was essentially independent of grade and strain amplitude for life <2×106 reversals. Correlations between tensile properties and strain-cycle fatigue parameters were either not statistically significant or so highly variable as to be of doubtful practical importance. However, for a life of 2×106 reversals, total strain amplitude Δɛ/2 bore a significant relation to tensile strength σu. Present findings emphasize the need for caution in estimating life when data are unavailable since such estimates encompassed a range in life 10 to 100 times greater than was actually observed.
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Miller, G. and Reemsnyder, H., "Strain-Cycle Fatigue of Sheet and Plate Steels II: Some Practical Considerations in Applying Strain-Cycle Fatigue Concepts," SAE Technical Paper 830173, 1983, https://doi.org/10.4271/830173.Also In
References
- Miller, G. A. Sharron, T. R. Reemsnyder, H. S. “A Compilation of Strain-Cycle Fatigue Data for Bethlehem Steel Sheet and Plate Grades,” July 20 1982
- Aichbhaumik, D. “Steel Variability Effects on Low Cycle Fatigue Behavior of a Single Grade of High Strength Low Alloy Steel,” Metallurgical Transactions 10A 1979 269 278
- Parker, T. E. “Characterization of the Low Cycle Fatigue Properties of Hot Rolled Sheet Steels,” SAE paper No. 790463 1979
- Crow, E. L. Davis, F. A. Maxfield, M. W. “Statistics Manual,” Dover Publications, Inc. New York 1960 57 62
- Landgraf, R. W. “The Resistance of Metals to Cyclic Deformation,” in “Achievement of High Fatigue Resistance in Metals and Alloys,” ASTM STP 467 American Society for Testing and Materials 1970 3 36
- Landgraf R. W. Sherman, A. M “Fatigue Behavior of Microalloyed Steels,” “Microalloying 75 Proceedings,” 1975 Union Carbide 498 502
- Sherman A. M. Davies, R. G. “Fatigue of a Dual-Phase Steel,” Metallurgical Transactions 109A 1979 929 933
- Sherman, A. M. “Fatigue Properties of High Strength-Low Alloy Steels” Metallurgical Transactions 6A 1975 1035 1040
- Holt J. M. Stewart, B. K. “Strain-Controlled Fatigue Properties of USS EX-TEN F50 Steel,” SAE paper 7904690 1979
- Holt, J. M. “Strain-Controlled Fatigue Properties of Hot-Rolled DQSK Steel Compared wtih Those of EX-TEN F50 and Dual Phase 80 Steels,” SAE paper No. 810434 1981
- Krause, A. R. Landgraf, R. W. Crandall, B. T. “Fatigue Properties of Cold-Rolled Sheet Steels,” SAE paper No. 790461 1979
- “Technical Report on Fatigue Properties - SAE J1099,” Society of Automotive Engineers Warrendale, Pa. 1979
- “Fatigue Design Handbook,” Society of Automotive Engineers Warrendale, Pa. 1968
- Boardman, B. E. “Crack Initiation Fatigue - Data Analysis, Trends and Estimation,” in” “Proceedings of the SAE Fatigue Conference,” P-109 Society of Automotive Engineers Warrendale, Pa. 1982 59 73