In the present paper, a procedure for fatigue strength assessment of metals containing solidification defects is employed to analyze the fatigue behavior of a ductile cast iron (DCI) characterized by a relevant micro-shrinkage porosity. The procedure implements (i) a statistical method deriving from extreme value theory, (ii) the (Formula presented.) -parameter model, and (iii) the multiaxial critical plane-based criterion by Carpinteri et al. According to the above statistical method, both the distribution of defects and the return period are determined. More precisely, the return period is computed by also exploiting a relationship here proposed to optimize the accuracy of the procedure in terms of fatigue strength estimation. The great potential of the present procedure is that the defect content analysis (performed by means of a statistical method deriving from extreme value theory) can be easily performed using machine learning techniques.

Effect of the porosity on the fatigue strength of metals / Vantadori, S.; Ronchei, C.; Scorza, D.; Zanichelli, A.; Luciano, R.. - In: FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES. - ISSN 8756-758X. - 45:9(2022), pp. 2734-2747. [10.1111/ffe.13783]

Effect of the porosity on the fatigue strength of metals

Vantadori S.;Ronchei C.;Scorza D.;Zanichelli A.;Luciano R.
2022-01-01

Abstract

In the present paper, a procedure for fatigue strength assessment of metals containing solidification defects is employed to analyze the fatigue behavior of a ductile cast iron (DCI) characterized by a relevant micro-shrinkage porosity. The procedure implements (i) a statistical method deriving from extreme value theory, (ii) the (Formula presented.) -parameter model, and (iii) the multiaxial critical plane-based criterion by Carpinteri et al. According to the above statistical method, both the distribution of defects and the return period are determined. More precisely, the return period is computed by also exploiting a relationship here proposed to optimize the accuracy of the procedure in terms of fatigue strength estimation. The great potential of the present procedure is that the defect content analysis (performed by means of a statistical method deriving from extreme value theory) can be easily performed using machine learning techniques.
2022
Effect of the porosity on the fatigue strength of metals / Vantadori, S.; Ronchei, C.; Scorza, D.; Zanichelli, A.; Luciano, R.. - In: FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES. - ISSN 8756-758X. - 45:9(2022), pp. 2734-2747. [10.1111/ffe.13783]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2931499
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