Resumen:
We have developed a three-dimensional cohesive element and a class o irrevesible cohesive laws which enable the accurate and efficient tracking of three-dimensional fatigue crack fronts and the calculation of the attendant fatigue life curves. The cohesive element governs the separation of the crack flanks in accordance with a irreversible cohesive law, eventually leading to the formation of free surfaces, and its compatible with a conventional finite element discretization of the bulk material. The versatility and predictive ability of the method is demonstrated through the simulation of the axial fatigue tests of aluminum shafts of Thompson and Sheppartd (1992a, b, c). The ability of the method to reproduce the experimentally observed progression of beachmarks and fatigue life curves is particularly noteworthy.
Índice de impacto JCR y cuartil WoS: 3,600 - Q2 (2022)
Referencia DOI:
https://doi.org/10.1016/S0020-7683(98)00059-6
Publicado en papel: Mayo 1999.
Publicado on-line: Mayo 1999.
Cita:
A. Andrés, J. Pérez, M. Ortiz, Elastoplastic finite element analysis of three-dimensional fatigue crack growth in aluminum shafts subjected to axial loading. International Journal of Solids and Structures. Vol. 36, nº. 15, pp. 2231 - 2258, Mayo 1999. [Online: Mayo 1999]
