Authors: N. Benachour, A. Hadjoui, M. Benachour, M. Benguediab

Abstract:

This study reports an empirical investigation of fatigue crack initiation and propagation in 2024 T351 aluminium alloy using constant amplitude loading. In initiation stage, local strain approach at the notch was used and in stable propagation stage NASGRO model was applied. In this investigation, the flat plate of double through crack at hole is used. Based on experimental results (AFGROW Database), effect of stress ratio, R, is highlights on fatigue initiation life (FIL) and fatigue crack growth rate (FCGR). The increasing of dimension of hole characterizing the notch effect decrease the fatigue life.

Keywords: Fatigue crack growth, initiation life, Al-Alloy, stressratio, notch effect

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1059485

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3202

References:

[1] Glinka G. Residual stress in fatigue and fracture: Theoretical analyses and experiments. In Niku-Lari A., Editor, Advances in Surfaces Treatments, pp 413-454. Pergamon Press, 1987. Residual stresses, volume 4.
[2] Topper, T. H., Wetzel, R. M., and Morrow, J., "Neuber-s Rule Applied to Fatigue of Notched Specimens," J. Mater., Vol. 4, No. 1, pp. 200-209, 1969.
[3] Dabell, B. J., Hill, S. J., Eaton, D. E., Watson, P., "Fatigue life prediction for notched components," Journal of the Society of Environmental Engineers, Vol. 16, No. 4, pp. 3-11, 1977.
[4] Truchon, M., "Application of low-cycle fatigue test results to crack initiation from notches, low-cycle fatigue and life prediction," ASTM STP 770, C. Amzallag, B. N. Leis, and P. Rabbe, (Eds.), American Society for Testing and Materials, pp. 254-268, 1982.
[5] Glinka, G., "A notch stress-strain analysis approach to fracture crack growth". Engineering Fracture Mechanics, Vol. 21, No. 2, pp. 245-261, 1985.
[6] Socie, D. F., "Fatigue-life prediction using local stress-strain concept," experimental mechanics, Vol. 17, pp. 50-56, 1977.
[7] Zheng X. "On some basic problems of fatigue research in engineering", Int. J. Fatigue 2001; 23:751-66.
[8] Khan, Z., Rauf, A. and Younas, M., Prediction of fatigue crack propagation life in notched members under variable amplitude loading," Journal of Materials Engineering and Performance, Vol. 6, No. 3, pp. 365-373, 1997.
[9] Zheng M, Niemi E, Zheng X. An energetic approach for predict fatigue crack initiation life of LY 12 CZ aluminum and 16 Mn steel.Theor Appl Fract Mech 1997; 26:23-8.
[10] F.J. McMaster, D.J. Smith, International Journal of Fatigue 23, S93- S101, (2001)
[11] C.S. Kusko, J.N. Dupont, A.R. Marder, "Influence of stress ratio on fatigue crack propagation behavior of stainless steel welds". Welding Journal, February 2004, 59S-64S, (2004)
[12] C.A. Rodopoulos, J. H. Choi, E.R. de los Rios, J.R. Yates. "Stress ratio and the fatigue damage mapÔÇöPart II: The 2024-T351 aluminium alloy". International Journal of Fatigue 26 (2004) 747-752.
[13] S. Pearson. "Initiation of fatigue crack in commercial aluminium alloys and the subsequent propagation of very short cracks". Engineering Fracture Mechanic 1975, Vol. 7, pp. 235-247.
[14] M. Zheng, J.H. Luo, X.W. Zhao, Z.Q. Bai, R. Wang. "Effect of predeformation on the fatigue crack initiation life of X60 pipeline steel". International Journal of Pressure Vessels and Piping 82 (2005) 546-552.
[15] J.C. Grosskreutz, C.G Shaw. "Critical mechanisms in the development of fatigue cracks in 2024 T4 aluminum". Proc. 2nd Int. Conf. on Fracture, Brighton (1969).
[16] H.Huth and D.Sch├╝tz, The collection and analysis of fatigue damage occurring in aircraft in service, Royal Aircraft Establishment Library Translation 1934, Farnborough, UK, August 1977.
[17] Robert R. Fujczak. "Effects of R-ratio on crack initiation at external discontinuities in autofrettaged cylinders". Experimental Mechanics_9, June 1984. pp 122-128.
[18] N. Ranganathan, H. Aldroe, F. Lacroix, F. Chalon, R. Leroy, A. Tougui. "Fatigue crack initiation at a notch". International Journal of Fatigue 33 (2011) 492-499.
[19] Tuegel, E., "Strain-life crack initiation life software, provided by analytical processes and engineered solutions (AP/ES)", Inc., 1996.
[20] Harter, J.A, "AFGROW users guide and technical manual: AFGROW for Windows 2K/XP". Version 4.0011.14, Air Force Research Laboratory.
[21] Neuber, H., "Theory of stress concentration for shear-strained prismatical bodies with arbitrary nonlinear stress-strain law," Trans. ASME, Journal of Applied Mechanics, pp. 544-550, Dec 1960.
[22] Peterson, R.E., "Stress concentration factors," John Wiley and Sons, 1974.
[23] Hall, L.H. et al., "Fracture and Fatigue of surface flaws and flaws originating at fastener holes," Volume 1, AFFDL-TR-74-47, 1973.
[24] Coffin, L.F., "A study of effects of cyclic thermal stresses on a ductile metal". Transactions of the ASME, vol. 76, pp. 931-950, 1954.
[25] Newman, J.C., 1984, "A crack opening stress equation for fatigue crack growth". International Journal of Fracture, 24(3), R131-135.