Abstract Many aspects of the fatigue behaviour of cast iron materials are difficult to explain. For example, they display a very low notch sensitivity, and notched specimens are subject to a strong size effect. These effects can be explained if a fracture mechanics approach is adopted, which has two elements. First, the notch itself is modelled as a crack: this approach is shown to be valid for a wide range of notches. Second, the notch depth an is augmented by a crack length ac, thus modelling the notch as a crack of length (an + ac). This recognizes the fact that cracks initiate and grow from the notch root, even at stresses below the fatigue limit. Thus the fatigue limit is characterized by the presence of a crack of length ac. It is shown that the value of ac is directly related to the short crack parameter ao defined by ElHaddad et al. The method is tested on three cast iron materials: a grey cast iron, a ferritic SG iron and a pearlitic SG iron. The effect of section size is explained by this analysis, making it possible to use these specimen results to predict the behaviour of components. An incidental benefit is that accurate values of the threshold parameter ΔKth can be obtained from notch fatigue data.
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