Design of several metallic structural components, for instance in aerospace applications, should take into account the physically short crack behaviour. By characterising a fracture surface using fractals concepts, crack growth models similar to that proposed by Frost and Dugdale in 1958 and Hartman and Schjive in 1970 can be obtained. For short cracks, these models predict exponential crack growth with respect to the applied load history, and that has led to a practical aircraft lifing approach known as the lead crack framework. The present paper describes the fractality of metallic fracture surfaces and the crack growth behaviour in some fatigue tests.
Using the lead crack concept and fractal geometry for fatigue lifing of metallic structural components / Molent, Loris; Spagnoli, Andrea; Carpinteri, Andrea; Jones, Rhys. - In: INTERNATIONAL JOURNAL OF FATIGUE. - ISSN 0142-1123. - 102:(2017), pp. 214-220. [10.1016/j.ijfatigue.2017.04.001]
Using the lead crack concept and fractal geometry for fatigue lifing of metallic structural components
SPAGNOLI, Andrea;CARPINTERI, Andrea;
2017-01-01
Abstract
Design of several metallic structural components, for instance in aerospace applications, should take into account the physically short crack behaviour. By characterising a fracture surface using fractals concepts, crack growth models similar to that proposed by Frost and Dugdale in 1958 and Hartman and Schjive in 1970 can be obtained. For short cracks, these models predict exponential crack growth with respect to the applied load history, and that has led to a practical aircraft lifing approach known as the lead crack framework. The present paper describes the fractality of metallic fracture surfaces and the crack growth behaviour in some fatigue tests.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.