Vorhersagemodell für die Wachstumsraten kurzer Risse auf der Basis von Kmax‐konstant‐Versuchen an M(T)‐Proben |
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Authors: | A. Tesch Dr. R. Pippan K.‐H. Trautmann H. Döker |
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Affiliation: | 1. Erich‐Schmid‐Institut für Materialwissenschaft der ?sterreichischen Akademie der Wissenschaften, Loeben, ?sterreich;2. Deutsches Zentrum für Luft‐ und Raumfahrt, Institut für Werkstoff‐Forschung;3. K?ln |
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Abstract: | Prediction model for the growth rates of short cracks based on Kmax‐constant tests with M(T) specimens The fatigue crack growth behaviour of short corner cracks in the Aluminium alloys Al 6013‐T6 and Al 2524‐T351 was investigated. The aim was to determine the crack growth rates of small corner cracks at stress ratios of R = 0.1, R = 0.7 and R = 0.8 and to develop a method to predict these crack growth rates from fatigue crack growth curves determined for long cracks. Corner cracks were introduced into short crack specimens, similar to M(T)‐specimens, at one side of a hole (Ø = 4.8 mm) by cyclic compression (R = 20). The pre‐cracks were smaller than 100 μm (notch + precrack). A completely new method was used to cut very small notches (10–50 μm) into the specimens with a Focussed Ion Beam. The results of the fatigue crack growth tests with short corner cracks were compared with long fatigue crack growth test data. The short cracks grew at ΔK‐values below the threshold for long cracks at the same stress ratio. They also grew faster than long cracks at the same ΔK‐values and the same stress ratios. A model was developed on the basis of Kmax‐constant tests with long cracks that gives a good and conservative prediction of the short crack growth rates. |
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Keywords: | Aluminiumlegierungen Ermü dungsrisswachstum kurze Risse Modellierung Kmax‐konstant‐Versuche aluminium alloys fatigue crack growth short cracks crack growth modelling Kmax‐constant tests |
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