Pinning/depinning of crack fronts in heterogeneous materials
Abstract
The fatigue fracture surfaces of a metallic alloy, and the stress corrosion fracture surfaces of glass are investigated as a function of crack velocity. It is shown that in both cases, there are two fracture regimes, which have a well defined self-affine signature. At high enough length scales, the universal roughness index 0.78 is recovered. At smaller length scales, the roughness exponent is close to 0.50. The crossover length c separating these two regimes strongly depends on the material, and exhibits a power-law decrease with the measured crack velocity c v-φ, with φ 1. The exponents and β characterising the dependence of c and v upon the pulling force are shown to be close to 2 and β 2.
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