PSI - Issue 46

Jakub Šedek et al. / Procedia Structural Integrity 46 (2023) 69–74 Jakub Šedek / Structural Integrity Procedia 00 (2021) 000–000

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Grooteman F.P., Hoeve ten H.J. 2006, ESACRACK Strip Yield variable constraint model, Report No. NLR-CR-2006-390, NLR, The Netherlands. Khan S.U. at al., 2007. On the Fatigue Crack Growth Prediction Under Variable Amplitude Loading, Delft University of Technology. Materna A., Oliva V., 2011 Elastic-plastic FEM Investigation of the Thickness Effect on Fatigue Crack Growth, Procedia Engineering, Vol. 10, pp. 1109-1114, ISSN 1877-7058, https://doi.org/10.1016/j.proeng.2011.04.183. Machniewicz T., 2012. Yield Stress Modifiaction in the Strip Yield Model, Mechanics and control, Vol. 31, No. 4, pp. 150-157. Mills W.J., Hertzberg R.W., 1975. The effect of sheet thickness on fatigue crack retardation in 2024-T3 aluminum alloy, Engineering Fracture Mechanics, Vol.7 (4), pp. 705-711, ISSN 0013-7944, https://doi.org/10.1016/0013-7944(75)90026-0. NASGRO V 7.1, 2014. [software], SRI, San Antonio, Texas. Newman J.C. Jr., 1981. A Crack Closure Model for Predicting Fatigue-Crack Growth Under Aircraft Spectrum Loading, NASA LRC, NTM 81941. Newman Jr. J. C., Bigelow C. A. and Shivakumar K. N., 1993. Three-dimensional Elastic-plastic Finite-Element Analyses of Constraint Variations in Cracked Bodies, NASA LRC, NTM 107704. Paris P.C. at al., 1961. A rational analytical theory of fatigue. The Trend of Engineering, Vol. 13, pp. 9-14. Paris P.C. and Erdogan F., 1963. J Basic Engng Trans, Am Soc Mech Eng, Ser D, Vol. 85, pp. 528-534. Pastorcic D., Vukelic G., Bozic Z., 2019, Coil spring failure and fatigue analysis, Engineering Failure Analysis, Vol. 99, pp. 310-318, doi.org/10.1016/j.engfailanal.2019.02.017. Ruzek R., Homola P., Kakos M., 2017. Experimental verification of thickness effects on fatigue crack growth in an AA 7475, In: Trebuna, F. et al. (eds.), EAN 2017 - 55th Conference on Experimental Stress Analysis 2017, 55th International Scientific Conference on Experimental Stress Analysis 2017, EAN 2017, Novy Smokovec, 30 May 2017 - 1 June 2017, pp. 513–518, ISBN 978-805533167-6 Sander M., 2004. Comparison of Fatigue Crack Growth Concepts with Respect to Interaction Effects. In: Nilson F. (ed.), CD-ROM Proceedings of ECF 15, Stockholm. Schijve J., 2001. Fatigue of Materials and Structures, Kluwer Academic Publishers, 785 pages, ISBN 0-7923-7014-7. Toyosada M., Gotoh K., 2005. Physical meaning of the fictitious crack opening displacement in Dugdale model. In: 11th International Conference on Fracture 2005, ICF11, Turin; Italy; 20-25 March 2005 Volume 2, pp. 1062-1067, ISBN: 978-161782063-2. Wang G.S. and Blom A.F., 1991. A strip model for fatigue crack growth predictions under general load conditions, Engng Fracture Mech., Vol. 40, No. 3, pp. 507-533.