13th International Conference on Fracture June 16–21, 2013, Beijing, China -6- The compliance increment in every crack advance is calculated using the following expression, 7 i+1 i j+1 j =0 8 7 , + ,+1+ +1, + +1,+1 = - - + 4 ,7 + +1,7 + ,8 - 2 3 i j R i j R i j R i j R i j f a a θ θ R i R i R i θ θ + (27) In order to obtain the dimensionless compliance of the initial crack, the process is similar to that just described, but easier, because it considers that every previous crack front has the same aspect ratio as the initial one. Furthermore, cracks smaller than the minimum ones used by Shin and Cai (a/D=0.067) were not taken into account in the compliance calculation. 3. Numerical Results and Discussion 3.1. Fatigue Cracking Paths The study of the convergence was performed to obtain the number of segments in which each ellipse is divided, z=14, and the value of the maximum crack increase, Δa(max)=D/1000. The geometrical evolution of the crack front, characterized as part of the ellipse, was determined for every relative crack depth, a/D, through the aspect ratio, a/b, for materials with Paris exponent m=2, 3 and 4, starting from different initial crack geometries (corresponding to the beginning of each curve, i.e., the point of minimum crack depth a/D) under tension loading and bending moment (Figs. 5 to 7). Under fatigue loading, different initial crack configurations tend to a preferential path (in a plot a/b-a/D), the convergence (proximity between the curves representing the crack advance from different initial crack shapes) being faster for higher values of the m coefficient of the Paris law and greater for the bending loading than for the tensile loading. When subjected to bending, growth curves generally present lower values for the a/b parameter than under tension, with the exception of the deepest cracks growing from an initial crack aspect ratio (a/b)00. If the initial crack is circular (i.e., (a/b)0=1), the aspect ratio a/b diminishes with the crack growth, whereas when the initial crack is quasi-straight (i.e., (a/b)00), the aspect ratio a/b increases at the beginning and decreases later (with the exception of initially deep cracks with (a/D)00.5, where the aspect ratio a/b always increases), cf. Figs. 5 to 7. It is observed that results depend on the exponent of the Paris law (Paris coefficients), so that for m=2 and m=3 the crack fronts are more distant between them than for m=3 and m=4, where the m=3 front is between m=2 and m=4. In the case of growth from circular initial cracks (i.e., (a/b)0=1), the maximum discrepancy with regard to the crack fronts appears for intermediate cracks (a/D~0.5), a/b being lower for higher values of m-exponent in the Paris law. In the case of growth from quasi-straight initial cracks (i.e., (a/b)00), the maximum discrepancy in the matter of the crack fronts appears for short ((a/b)0~0.3) and long ((a/b)0~0.7) cracks, whereas for intermediate ((a/b)0~0.5) cracks the results for different Paris coefficient m almost match. For short cracks a/b is higher for greater m; whereas for long cracks a/b is higher for lower values of m (again with the exception of initially deep cracks with (a/D)00.5).
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