Energy-Based Prediction of Low-Cycle Fatigue Life of CK45 Steel and SS316 Stainless Steel

Publish Year: 1393
نوع سند: مقاله ژورنالی
زبان: English
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JR_JSMA-6-3_004

تاریخ نمایه سازی: 27 فروردین 1399

Abstract:

In this paper, low cycle fatigue life of CK45 steel and SS316 stainless steel under strain-controlled loading are experimentally investigated. In addition, the impact of mean strain and strain amplitude on the fatigue life and cyclic behavior of the materials are studied. Furthermore, it is attempted to predict fatigue life using energy and SWT damage parameters. The experimental results demonstrate that increase in strain amplitude decreases fatigue life for both materials, strain amplitude has a remarkable effect on fatigue life, and the impact of mean strain is approximately negligible. Furthermore, the energy damage parameter provides more accurate prediction of fatigue life for both materials.

Authors

M Shariati

Department of Mechanical Engineering, Ferdowsi University of Mashhad

H Mehrabi

Department of Mechanical Engineering, Shahrood University of Technology

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  • Yang X., 2005, Low cycle fatigue and cyclic stress ratcheting ...
  • Date S., Ishikawa H., Otani T., Takahashi Y., 2008, Effect ...
  • You B-R., Lee S-B., 1996, A critical review on multiaxial ...
  • Jahed H., Farahani A.V., Noban M., Khalaji I., 2007, An ...
  • Smith R.N., Watson P., Topper T.H., 1970, A stress-strain function ...
  • Lorenzo F., Laird C., 1984, A new approach to predicting ...
  • Koh S.K., Stephens R.I., 1991, Mean stress effects on low ...
  • Halford G.J., 1966, The energy required for fatigue, Journal of ...
  • Kujawski D., Ellyin F., 1995, A unified approach to mean ...
  • Golos K., Ellyin F.A., 1988, A total strain energy density ...
  • Sugiura K., Chang K.C., 1991, Evaluation of low-cycle fatigue strength ...
  • Dutta A., Dhar S., Acharyya S.K., 2010, Characterization of SS316 ...
  • Callaghan M.D., Humphries S.R., Law M., Ho M., Bendeich P., ...
  • Lv F., Yang F., Li S.X., Zhang Z.F., 2011, Effect ...
  • Abdalla J.A., Hawileh R.A., Oudah, F., Abdelrahman K., 2009, Energy-based ...
  • Gloanec A.I., Milani T., Henaff G., 2010, Impact of microstructure, ...
  • Yunrong L.U., Chongxiang H.U., Li G., Qingyuan W., 2012, Energy-based ...
  • Basquin O.H., 1910, The exponential law of endurance tests, American ...
  • Coffin L.F., 1954, A study of the effects of cyclic ...
  • Manson S.S., 1953, Behavior of materials under condition of thermal ...
  • Tchankov D.S, Vesselinov K.V., 1998, Fatigue life prediction under random ...
  • Lagoda T., 2001, Energy models for fatigue life estimation under ...
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