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2010
Conference Paper
Titel
A crack growth rate model compatible with the wöhler field
Abstract
In this work, a dimensionally congruent model is developed to reproduce the complete crack growth rate curve. The model considers a normalized stress intensity factor range K*+ defined in the domain [0, 1] that can be interpreted as a cumulative distribution function, thus taking advantage of the statistical experience inherent to this type of functions, in particular, in what concerns the parameter estimation methods. Beside this, a relevant theorem is then recalled showing the possibility of deriving crack growth curves a-N for different stress ranges and initial crack lengths a0 from a unique reference curve. In this way, the S-N curves can be derived from the crack growth rate curves as a function of the initial crack size proving the interrelation between the stress based model and that based on fracture mechanics. The model is applied to a set of experimental data from a certain steel alloy allowing us the derivation of crack growth rate curves and S-N curves for subsequent application in the practical assessment of the fatigue life of structures and mechanical elements.