Durability > Durability theory
Scientific literature references for durability
Matsuishi, M., and Endo, T., “Fatigue of Metals Subjected to Varying Stress”, Japan Society of Mechanical Engineers, March, 1968.
Endo, T., et. al., “Damage Evaluation of Metals for Random or Varying Loading”, Proceedings of the 1974 Symposium on Mechanical Behavior of Materials, Volume 1, Society of Materials Science, Japan, 1974. pp. 371-380.
H.O. Fuchs, R.I. Stephens, “Metal Fatigue in Engineering”, Wiley, 1980.
Dowling, N. E., “Mechanical Behavior of Materials”, Prentice-Hall, 1993, p. 670.
Tipton, S.M., and Fash, J.W., “Multiaxial Fatigue Life Predictions for the SAE Specimen Using Strain-based Approach”, in Multiaxial Fatigue: Analysis & Experiments, SAE AE-14, 1989, pp. 67-80.
Brown, M.W., and Miller, K.J. “High Temperature Low-cycle Biaxial Fatigue of Two Steels”, Fatigue of Engineering Materials and Structure, Volume 1, 1979. pp. 217-225.
Socie D.F., “Fatigue-Life Prediction Using Local Stress-Strain Concepts”, Experimental Mechanics, February, 1977.
Socie D.F., Mitchell M.R., and Caulfield E.M., “Fundamentals Of Modern Fatigue Analysis”, College of Engineering, University of Illinois, April, 1977.
Fatigue Design Subcommittee of Division 4 of SAE Iron and Steel Technical Committee, “Fatigue Design Handbook”, Society of Automotive Engineers, Inc., 1968.
Manson S.S. and Halford G.R., “Fatigue and Durability of Structural Materials”, ASM International, 2006.
Bishop N.W.M. and Sherratt F., “Finite Element Based Fatigue Calculations”, NAFEMS Ltd., 2000.
Stephens et al., “Metal Fatigue in Engineering”, 1990, pp. 415-416.
Gurney, T. R., “Fatigue Design Rules for Welded Steel Joints”, Welding Institute Research Bulletin, Volume 17, No. 5, May 1976, pp. 115-124.
Lindqvist J., “Fatigue strengths thickness dependence in welded constructions”, Master thesis, Borlänge, January 2002.
Ballard, P. et al., “High Cycle Fatigue and a Finite Element Analysis”, Fatigue & Fracture of Engineering Materials & Structures, Volume 18, No. 3, 1995, pp. 397-411.
Araujo, J.A. et al., “The use of multiaxial fatigue models to predict fretting fatigue life of components subjected to different contact stress fields”, Fatigue & Fracture of Engineering Materials & Structures, Volume 27, 2004, pp. 967-978.
Ciavarella, M. et al., “On the Dang Van fatigue limit in rolling contact fatigue”, International Journal of Fatigue, Volume 28, 2006, pp. 852-863.
Murray, W.W. and Miller, W.R., “The Bonded Electrical Resistance Strain Gage”, Chapters 8 and 9, Oxford University Press, 1992.
Wijker, J.J., “Random Vibrations in Spacecraft Structure Design: Theory and Applications”, Chapter 2, Spring Verlag, 2009.
Bonte, M., de Boer, A., and Liebregts, R., “Determining the von Mises PSD for freqeuncy domain fatigue analysis including out-of-phase stress components”, Journal of Sound and Vibration, Volume 302, 2007, pp. 379-386.
Philippidis, T.P. and Vassilopoulos, A.P., “Fatigue Strength of Composites Under Variable In-Plane Stress”, Chapter 18 of Fatigue in Composites, Bryan Harris, Editor, CRC Press, 2003.
Shokrieh, M. and Lessard, L., “Multiaxial Fatigue Behavior of Unidirectional Plies Based on Uniaxial Fatigue Experiments: I. Modeling”, International Journal of Fatigue, Volume 19, No. 3, 1997, pp. 201–207.
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Introduction to durability analysis
Understanding the strength evaluation
Strength calculations for orthotropic failure criteria
Fatigue evaluation on element free faces
Fatigue life criteria
Biaxial fatigue evaluation on element free faces
Using a notch factor for modeling the local plastic behavior
Understanding cyclic stress-strain behavior
Understanding the fatigue safety evaluation
Cumulative damage
Random fatigue methods
Strain and stress calculations from strain gage leg data
Strain gage transverse corrections for rosette legs
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Scientific literature references for durability, Simcenter 3D 2021.1 Series
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Source: https://docs.sw.siemens.com/en-US/doc/289054037/PL20200601120302950.advanced/id976187 · retrieved 2026-07-17