Size effects on spheroidal voids by Finite Fracture Mechanics and application to corrosion pits

Ferrian, Francesco; Correas, A. Chao; Cornetti, Pietro; Sapora, Alberto Giuseppe

doi:10.1111/ffe.13902

Cited by 4 publications

(1 citation statement)

References 46 publications

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“…where L is the crack length and ∆W el denotes the variation of the elastic strain energy due to crack propagation. In the context of these criteria, the IERR, coupled with the stress field, offers a robust framework for predicting the fatigue strength of both blunt and sharp notches [10,12,36,37]. Nevertheless, critical distancebased approaches have different drawbacks, notably complex Finite Element Analysis (FEAs) and parameter fitting.…”

Section: Geometriesmentioning

confidence: 99%

Beyond Conventions: Evaluating Ensemble Learning Methods for Precise Fatigue Life Estimation

Farhadi,

Tatullo,

Ferrian

2024

Preprint

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Efficient prediction of fatigue life in structural components is crucial for ensur- ing their integrity and reliability, especially considering the dominant occurrence of fatigue failure in metallic structures within the industrial sectors. Conven- tional fatigue assessment methods, although theoretically established, are often time-consuming and exhibit limitations due to the intricate nature of the fatigue mechanism. Machine learning models have demonstrated significant potential for enhancing the efficiency of predictions in fatigue life. This research explores the effectiveness of ensemble learning models—boosting, stacking, and bag- ging—compared to linear regression and K-Nearest Neighbors as benchmarks. Fatigue life prediction is conducted across different notched scenarios using Incre- mental Energy Release Rate (IERR) measures in addition to the more standard stress/strain field measures. To assess the performance of the proposed models, a comprehensive set of evaluation metrics was performed, including mean square error (MSE), mean squared logarithmic error (MSLE), symmetric mean abso- lute percentage (SMAPE), and Tweedie score. The findings reveal that ensemble learning models, particularly the ensemble neural networks, stands out as a superior approach for fatigue life cycle assessment compared to other methods. Moreover, the integration of IERR in predicting fatigue life for notched-shape components indicates a promising approach for enhancing the reliability and efficiency of fatigue life predictions in real-world industrial applications.

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Section: Geometriesmentioning

confidence: 99%

Beyond Conventions: Evaluating Ensemble Learning Methods for Precise Fatigue Life Estimation

Farhadi,

Tatullo,

Ferrian

2024

Preprint

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Crack tip shielding and size effect related to parallel edge cracks under uniaxial tensile loading

Ferrian,

Cornetti,

Sapora

et al. 2024

Int J Fract

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The present work aims at investigating crack shielding and size effect related to a cracked slab under tensile loading. For this purpose, experimental tests are carried out on PMMA cracked samples. Three different geometries are taken into account, presenting one, two or three parallel edge cracks, and assuming their distance equal to their initial length. Results are interpreted through the coupled stress and energy criterion of Finite Fracture Mechanics (FFM). The approach is implemented numerically, and parametric finite element analyses are carried out to evaluate the normal stress field and the stress intensity factor for each configuration. It is found that asymmetric crack propagation has to be preferred according to the energy balance. The matching between FFM failure predictions and experimental data reveals to be satisfactory.

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A novel Finite Fracture Mechanics approach to assess the lifetime of notched components

Mirzaei

Cornetti

Sapora

2023

International Journal of Fatigue

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Size effects on spheroidal voids by Finite Fracture Mechanics and application to corrosion pits

Cited by 4 publications

References 46 publications

Beyond Conventions: Evaluating Ensemble Learning Methods for Precise Fatigue Life Estimation

Beyond Conventions: Evaluating Ensemble Learning Methods for Precise Fatigue Life Estimation

Crack tip shielding and size effect related to parallel edge cracks under uniaxial tensile loading

A novel Finite Fracture Mechanics approach to assess the lifetime of notched components

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