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The Clemson Limit Stress Diagram for Ductile Parts Subjected to Positive Mean Fatigue Loading

[+] Author and Article Information
Shyh-Jen Wang

Division of Experimental Surgery, Veterans General Hospital, Taipei, Taiwan, Republic of ChinaAssistant Professor, Institute of Bio-Medical Engineering, National Yang-Ming University, Taiwan, Republic of China

Marvin W. Dixon, Cecil O. Huey

Department of Mechanical Engineering, Clemson University, SC 29634

Su-Chen Chen

Division of Experimental Surgery, Veterans General Hospital, Taipei, Taiwan, Republic of China

J. Mech. Des 122(1), 143-146 (Mar 01, 2000) (4 pages) doi:10.1115/1.533557 History:
Copyright © 2000 by ASME
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References

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Moore,  H. F., 1922, “Report of the Research Committee on Fatigue of Metals,” Proceeding of ASTM, 37, pp. 158–163.
Soderberg, C. R., and Sweden, V., 1930, “Factor of Safety and Working Stress,” ASME Transaction, AER-IS, 52 , No. 1.
Bagci,  C., 1981, “Fatigue Design of Mechanical Elements Using the “Bagci Line” Defining the Fatigue Failure Surface Line (Mean Stress Diagram),” Mechanism and Machine Theory, 16, No. 4, pp. 339–359.
Forrest, P. G., 1962, Fatigue of Metals, Pergamon Press Inc., London.
Shigley, J. E., and Mitchell, L. D., 1983, Mechanical Engineering Design, 4th Ed., McGraw-Hill Book Co., New York.
Schwarts, R. T., 1948, “Correlation of Data on the Effect of Range of Stress on the Fatigue Strength of Metals for Tensile Mean Stresses,” Master Thesis, Ohio State University, Columbus.
Woodward, A. R., Gunn, K. W., and Forrest, G., 1956, “The Effect of Mean Stress on the Fatigue of Aluminum Alloys,” International Conference on Fatigue of Metals, London, Institution of Mechanical Engineers, Westminster, London, pp. 1156–1158.
Sine, G. H., 1953, “Failure of Materials under Combined Repeated Stresses with Superimposed Static Stresses,” Ph.D. Dissertation, University of California, Los Angeles.
Hohenemser,  K., and Prager,  W., 1933, “The Problem of Fatigue Strength Under Complex Stresses,” Metallwirtschaft, 12, p. 342.
Orthwein,  W. C., 1987, “Estimating Fatigue Due to Cyclic Multiaxial Stress,” J. Vibration, Acoustic, Stress, Reliability Design, 109, pp. 97–102.
Wang, Shyh-Jen, and Dixon M. W., 1993, “A New Design Criterion for Ductile Parts Subjected to Non-Zero Mean and Alternating Stresses,” 1993 Predictive Technology Symposium and Exhibition, Orlando, FL, American Defense Preparedness Association, Arlington, VA, pp. 220–234.
Gough, H. J., 1924, The Fatigue of Metals, Scott, Greenwood & Son, London.
Grover, H. J., Bishop, S. M., and Jackson, L. R., 1951, “Axial Load Fatigue Tests of Unnotched Sheet Specimens of 24S-T3 and 75S-T6 Aluminum Alloys and SAE 4130 Steels,” National Advisory Committee for Aeronautics, Technical Note, 2324.
Trapp,  W. J., and Schwartz,  R. T., 1953, “Elevated Temperature Fatigue Properties of SAE 4340 Steel,” Proceedings of American Society for Testing Materials, Vol. 53, pp. 825–838.
Howell,  F. M., and Lazan,  B. J., 1955, “Axial Stress Fatigue Strength of Several Structural Aluminum Alloys,” Proc. Amer. Soc. Test. Mat., 55, pp. 1023–1026.
Wang, Shyh-Jen, 1995, “Fatigue of Ductile Materials Subjected to Non-Zero Mean Stresses,” Ph.D. Dissertation, Clemson University, SC.

Figures

Grahic Jump Location
Comparison of various fatigue criteria with actual data for 0.29 carbon steel, Forest 6
Grahic Jump Location
Comparison of various fatigue criteria with actual failure data for 0.13 carbon steel, Gough 14
Grahic Jump Location
Comparison of various fatigue criteria with actual failure data for 4130 steel, Grover 15
Grahic Jump Location
Comparison of various fatigue criteria with actual failure data for 4340 steel, Trapp 16
Grahic Jump Location
Comparison of various fatigue criteria with actual failure data for 6016-T6 alloy, Howell and Lazan 17
Grahic Jump Location
Comparison of various fatigue criteria with actual failure data for 2014-T6 alloy, Howell and Lazan 17

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