Authors: A. Tavangari, N. Salehzadeh

Abstract:

In the crack growth analysis, the Stress Intensity Factor (SIF) is a fundamental prerequisite. In the present study, the mode I stress intensity factor (SIF) of three-dimensional penny- Shaped crack is obtained in an isotropic elastic cylindrical medium with arbitrary dimensions under arbitrary loading at the top of the cylinder, by the semi-analytical method based on the Rayleigh-Ritz method. This method that is based on minimizing the potential energy amount of the whole of the system, gives a very close results to the previous studies. Defining the displacements (elastic fields) by hypothetical functions in a defined coordinate system is the base of this research. So for creating the singularity conditions at the tip of the crack the appropriate terms should be found.

Keywords: Penny-shaped crack, Stress intensity factor, Fracture mechanics, Ritz method.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1337453

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References:

[1] Murakami Y. Stress intensity factors handbook. Pergamon Press, New York (1986).
[2] Tada H., Paris P., Irwin G. The stress analysis of cracks handbook. Paris Production Inc., St. Louis (2000).
[3] Hossein M. Shodja., FarzanehOjaghnezhad. A general unified treatment of lamellar inhomogeneities. Engineering Fracture Mechanics, 74, pp. 1499–1510 (2007).
[4] Irwin GR. Crack-extension force for a part-through crack in a plate. Trans ASME Ser E J ApplMech, 29, pp. 651–4 (1962).
[5] M.G. Duffy. Quadrature over a pyramid or cube of integrands with a singularity at a vertex. SIAM J. Number. Anal, 19 (6), pp. 1260–1262 (1982).
[6] Paul F. Byrd, David C. Galent. Gauss quadrature rules involving some nonclassical weight functions. Moffett fields, Calif (1970).