This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Lifetime Assessment of Cylinder Heads for Efficient Heavy Duty Engines Part II: Component-Level Application of Advanced Models for Thermomechanical Fatigue Life Prediction of Lamellar Graphite Cast Iron GJL250 and Vermicular Graphite Cast Iron GJV450 Cylinder Heads

Journal Article
2017-01-0346
ISSN: 1946-3936, e-ISSN: 1946-3944
Published March 28, 2017 by SAE International in United States
Lifetime Assessment of Cylinder Heads for Efficient Heavy Duty Engines Part II: Component-Level Application of Advanced Models for Thermomechanical Fatigue Life Prediction of Lamellar Graphite Cast Iron GJL250 and Vermicular Graphite Cast Iron GJV450 Cylinder Heads
Sector:
Citation: Hazime, R., Seifert, T., Kessens, J., and Ju, F., "Lifetime Assessment of Cylinder Heads for Efficient Heavy Duty Engines Part II: Component-Level Application of Advanced Models for Thermomechanical Fatigue Life Prediction of Lamellar Graphite Cast Iron GJL250 and Vermicular Graphite Cast Iron GJV450 Cylinder Heads," SAE Int. J. Engines 10(2):350-358, 2017, https://doi.org/10.4271/2017-01-0346.
Language: English

References

  1. Chaboche , J.-L. Time-independent constitutive theories for cyclic plasticity Int. J. Plast. 2 149 188 1986
  2. Chaboche , J.-L. Constitutive equations for cyclic plasticity and cyclic viscoplasticity Int. J. Plast. 5 247 302 1989
  3. Besson , J. , Cailletaud , G. , Chaboche , J.-L. , Forest , S. and Blétry , M. Non-linear mechanics of materials Series: Solid Mechanics and Its Applications Springer 2010
  4. Seifert , T. and Riedel , H. Mechanism-based thermomechanical fatigue life prediction of cast iron. Part I: Models International Journal of Fatigue 32 2010 1358 1367
  5. Foerch R. , and Zieher F. Damage Mechanics Based Modeling for Cast Iron TMF Applications USNCCM VI Dearborn 2001
  6. Zieher , F. , Langmayr , F. , Foerch , R. , Lampic , M. TMF Life Prediction for Cast Iron Based on Damage Mechanics WCCM V Vienna 2002
  7. Ganczarski , A. , and Cegielski , M. Continuous Damage Deactivation in Modeling of Cycle Fatigue of Engineering Materials Procedia Engineering 2 2010 1057 1066
  8. Sehitoglu , H. Thermo-mechanical fatigue life prediction methods Advances in Fatigue Lifetime Predictive Techniques Mitchell M.R. and Landgraf) R.W. ASTM STP 1122 47 76 1992
  9. Riedel , H. Fracture at high temperatures Springer Berlin, Heidelberg, New York 1st 1987
  10. TFAT software User’s Guide ADACS, Inc. Michigan, USA www.adacs-eng.com
  11. Dowling , N.E. , Begley , J.A. Fatigue crack growth during gross plasticity and the J-integral Mechanics of crack growth ASTM STP 590 Philadelphia 82 103 1976
  12. Nissley , D.M. Thermomechanical fatigue life prediction in gas turbine superalloys: a fracture mechanics approach AIAA J. 33 1114 20 1995
  13. He , M.Y. , Hutchinson , J.W. The penny-shaped crack and the plane strain crack in an infinite body of power-law material J. Appl. Mech. 48 830 840 1981
  14. Newman , J.C. A crack opening stress equation for fatigue crack growth Int. J. Fract. 24 1984 131 135 1984 599 606

Cited By