Issue 51

K. Bahram et alii, Frattura ed Integrità Strutturale, 51 (2020) 467-476; DOI: 10.3221/IGF-ESIS.51.35 470 F ATIGUE CRACK GROWTH MODEL he NASGRO model used in the prediction of the fatigue crack growth rate was developed by Forman [19] to take into account the entire propagation curve. The NASGRO equation is shown below: 1 1  1 1 p tho n q max crit K f da K C K dN R K K                              (8) where: K  is the stress intensity range. max K  is the maximum stress intensity range 0 TH K  is the threshold stress intensity range at the stress ratio R under consideration. crit K critical stress intensity factor f is the Newman crack closure function [20]. The parameters C, n, p, are determined experimentally, where: C : is a constant for the case where stress ratio R=0 n : is the slope on a log-log scale p and q are empirical coefficients that determine the curvature of the growth rate curve in the tail regions. Their values are selected to fit the growth rate curve to experimental data. The coefficient p controls the curve in the low growth rate (threshold) region, and q controls the curve in the high growth rate region. C ASE STUDY his study was conducted on aluminum alloys 2024 T351, whose mechanical properties are increased by a heat treatment to adulterate its micro-structure. This material is widely used in aeronautics and automobile industry. The mechanical properties as well as the NASGROW parameters used in the simulation are given in Tab. 1 and 2 . E (MPa) σ e (MPa) σ max (MPa) ε rupture (%) 74000 365 415 12.8 Table 1: Mechanical properties of the aluminum alloy 2024 T351 (AFGROW database). Aluminum alloy ∆K tho MPa√m K IC MPa√m K C MPa√m n p q c 2024T351 2.857 37.36 74.72 3 0.5 1 1.707*10 -10 Table 2 : Propagation model parameters useful by the NASGRO model (AFGROW database). For the simulations, we used a CT 50 specimen (Fig. 2); the specimen is subjected to a mode I loading. We chose to study the propagation of cracks under mode I because it is considered the most dangerous due to the opening by traction, which favors the initiation and the propagation of the cracks. T T