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Archive of Applied Mechanics

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13.10.2017 | Original

Fatigue life and defect tolerance calculation for specimens with foreign object impact and scratch damage

verfasst von: Zhixin Zhan, Weiping Hu, Qingchun Meng, Zhidong Guan

Erschienen in: Archive of Applied Mechanics | Ausgabe 3/2018

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Abstract

In this paper, a new method is proposed to calculate the fatigue life and defect tolerance for a 30CrMnSiA steel specimen with foreign object impact damage and scratch damage. First, the processes of foreign object impact and scratch are simulated. Then, the Lemaitre’s plasticity damage model is adopted to calculate the initial damage field arising from the impact process and scratch process. Second, the Chaudonneret’s damage model is applied to calculate the fatigue damage for the specimen with a defect under multiaxial fatigue loading. Then, the FE implementation of the damage mechanics model is presented in the platform of ANSYS, in which the coupling effect between the stress and damage fields is considered. Finally, this proposed method is applied to fatigue life and defect tolerance calculation for the 30CrMnSiA steel specimen with an impact defect and a scratch defect. The experiments were conducted to evaluate the approach mentioned above.

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Bathias, C., Pineau, A.: Fatigue of Materials and Structures. Wiley, Hoboken (2011)

Lazzeri, L., Mariani, U.: Application of damage tolerance principles to the design of helicopters. Int. J. Fatigue 31(6), 1039–1045 (2009)CrossRefMATH

Zhan, Z., Hu, W., Zhang, M., et al.: The fatigue life prediction for structure with surface scratch considering cutting residual stress, initial plasticity damage and fatigue damage. Int. J. Fatigue 74, 173–182 (2015)CrossRef

Zhan, Z., Hu, W., Zhang, M., et al.: Experimental method for and theoretical research on defect tolerance of fixed plate based on damage mechanics. Chin. J. Aeronaut. 26(5), 1195–1201 (2013)CrossRef

Suresh, S.: Fatigue of Materials. Cambridge University Press, Cambridge (1998)CrossRef

Gonçalves, C.A., Araújo, J.A., Mamiya, E.N.: Multiaxial fatigue: a simple stress based criterion for hard metals. Int. J. Fatigue 27, 177–187 (2005)CrossRefMATH

Teng, T.L., Fung, C.P., Chang, P.H.: Effect of weld geometry and residual stresses on fatigue in butt-welded joints. Int. J. Press. Vessels Pip. 79(7), 467–482 (2002)CrossRef

Stanfield, G.: Discussion on the strength of metals under combined alternating stresses. In: Proceedings of the Institution of Mechanical Engineers, vol. 131, p. 93 (1935)

Stulen, F., Cummings, H.: A failure criterion for multi-axial fatigue stresses. In: Proceedings-American Society for Testing and Materials, pp. 822–835 (1954)

10.

Chaboche, J.L.: Continuous damage mechanics—a tool to describe phenomena before crack initiation. Nucl. Eng. Des. 64(2), 233–247 (1981)CrossRef

11.

Kachanov, L.M.: Introduction to Continuum Damage Mechanics. Springer, Berlin (1986)CrossRefMATH

12.

Lemaitre, J., Lippmann, H.: A Course on Damage Mechanics. Springer, Berlin (1996)CrossRefMATH

13.

Peters, J., Ritchie, R.: Foreign-object damage and high-cycle fatigue of Ti-6Al-4V. Mater. Sci. Eng. 319, 597–601 (2001)CrossRef

14.

Nowell, D., Duo, P., Stewart, I.F.: Prediction of fatigue performance in gas turbine blades after foreign object damage. Int. J. Fatigue 25(9), 963–969 (2003)CrossRef

15.

Oakley, S.Y., Nowell, D.: Prediction of the combined high-and low-cycle fatigue performance of gas turbine blades after foreign object damage. Int. J. Fatigue 29(1), 69–80 (2007)CrossRef

16.

Withers, P.J.: Residual stress and its role in failure. Rep. Prog. Phys. 70(12), 2211 (2007)CrossRef

17.

Lara, A., Picas, I., Casellas, D.: Effect of the cutting process on the fatigue behaviour of press hardened and high strength dual phase steels. J. Mater. Process. Technol. 213(11), 1908–1919 (2013)CrossRef

18.

Schijve, J.: Fatigue of Structures and Materials. Springer, Berlin (2008)MATH

19.

Kachanov, L.M.: Fundamentals of the Theory of Plasticity. Courier Corporation, North Chelmsford (2004)

20.

Logan, D.: A First Course in the Finite Element Method. Cengage Learning, Boston (2011)

21.

Kaneko, I.: Piecewise linear elastic-plastic analysis. Int. J. Numer. Methods Eng. 14(5), 757–767 (1979)CrossRefMATH

22.

Trent, E.M., Wright, P.K.: Metal Cutting. Butterworth-Heinemann, Boston (2000)

23.

Stronge, W.J.: Impact Mechanics. Cambridge University Press, Cambridge (2004)MATH

24.

Lemaitre, J., Desmorat, R.: Engineering Damage Mechanics: Ductile, Creep, Fatigue and Brittle Failures. Springer, Berlin (2005)

25.

Chaboche, J.L., Lesne, P.M.: A nonlinear continuous fatigue damage model. Fatigue Fract. Eng. Mater. Struct. 11(1), 1–17 (1998)CrossRef

26.

Chaudonneret, M.: A simple and efficient multiaxial fatigue damage model for engineering applications of macro-crack initiation. J. Eng. Mater. Technol. 115(4), 373–379 (1993)CrossRef

27.

Sines, G.: Behavior of metals under complex static and alternating stresses. Metal Fatigue 1, 145–169 (1959)

28.

Wu, X.R.: Handbook of Mechanical Properties of Aircraft Structural Metals. Aviation Industry Press, Beijing (1998)

29.

Zhan, Z., Hu, W., Meng, Q., et al.: Continuum damage mechanics-based approach to the fatigue life prediction for 7050–T7451 aluminum alloy with impact pit. Int. J. Damage Mech. 25(7), 943–966 (2016)CrossRef

30.

Zhan, Z., Hu, W., Shen, F., et al.: Fatigue life calculation for a specimen with an impact pit considering impact damage, residual stress relaxation and elastic–plastic fatigue damage. Int. J. Fatigue 96, 208–223 (2017)CrossRef

31.

Zhan, Z., Hu, W., Li, B., et al.: Continuum damage mechanics combined with the extended finite element method for the total life prediction of a metallic component. Int. J. Mech. Sci. 124, 48–58 (2017)CrossRef

32.

Zhang, T., McHugh, P.E., Leen, S.B.: Finite element implementation of multiaxial continuum damage mechanics for plain and fretting fatigue. Int. J. Fatigue 44, 260–72 (2012)CrossRef

33.

Zhan, Z., Meng, Q., Hu, W., et al.: Continuum damage mechanics based approach to study the effects of the scarf angle, surface friction and clamping force over the fatigue life of scarf bolted joints. Int. J. Fatigue 102, 59–78 (2017)CrossRef

34.

Hallquist, J.O.: LS-DYNA User’s Manual. Livermore Software Technology Corporation, Livermore (2000)

35.

Torres, M.A.S., Voorwald, H.J.C.: An evaluation of shot peening, residual stress and stress relaxation on the fatigue life of AISI 4340 steel. Int. J. Fatigue 24(8), 877–886 (2002)CrossRef

36.

Lawrence, F.V., Burk, J.D., Yung, J.Y.: Influence of residual stress on the predicted fatigue life of weldments. ASTM Spec. Tech. Publ. 776, 33–43 (1982)

Titel: Fatigue life and defect tolerance calculation for specimens with foreign object impact and scratch damage
verfasst von: Zhixin Zhan
Weiping Hu
Qingchun Meng
Zhidong Guan
Publikationsdatum: 13.10.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Archive of Applied Mechanics / Ausgabe 3/2018
Print ISSN: 0939-1533
Elektronische ISSN: 1432-0681
DOI: https://doi.org/10.1007/s00419-017-1313-2

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