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A Comparative Analysis: Time vs. Frequency Domain Definitions of the Fatemi-Socie Criterion

In the realm of multiaxial fatigue analysis, the Fatemi-Socie criterion stands as a well-established and validated tool, having undergone rigorous experimental scrutiny with consistently favorable outcomes across a wide spectrum of materials [1]. Prior evaluations have predominantly involved comparisons under constant amplitude, both in proportional and non-proportional loading scenarios, with less frequent exploration of variable amplitude or random loadings [2].

Notably, there has been a gap in employing this criterion, particularly in the context of frequency domain and algorithms utilizing the power spectral density function. In this study, the authors introduce a comprehensive adaptation of the Fatemi-Socie criterion to the frequency domain and compare the resulting…

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Description

The comparative analysis extends to critical plane identification, critical plane amplitudes and maxima analysis, and overall fatigue life determination. The findings reveal a compelling similarity in fatigue life predictions between computational algorithms operating in both the time and frequency domains, underscoring the criterion's versatility and robustness.

Reference: VAL5-2024-037

Title: A Comparative Analysis: Time vs. Frequency Domain Definitions of the Fatemi-Socie Criterion
Author(s): A. Niesłony, M. Böhm, M. Sgamma, A. Chiocca, F. Bucchi, F. Frendo
DOI: 10.48447/VAL5-2024-037
Event: VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
Year of publication: 2024
Publication type: conference paper (PDF)
Language: English
Keywords: Fatemi-Socie criterion,frequency domain,vibration fatigue,multiaxial fatigue

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Data-driven load spectrum estimator for non-stationary random vibration loading

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Author(s): M. Hupka, M. Wächter, A. Esderts

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Influence of variable amplitude loading on copper-alloyed components

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Author(s): B. Spak, M. Schlicht, P. Froitzheim, W. Flügge, M. Kästner

Application of the Local Strain Approach to estimate fatigue life of clinched joints under constant and variable amplitude loading in different loading conditions

Publication type: conference paper (PDF)

English

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Author(s): F. Schneider-Jung, M. Speckert, K. Dreßler

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Simulation-based lifetime prediction for cables

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Author(s): M. Palmieri, A. Staffa, J. Slavic, F. Cianetti

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Author(s): D. Benasciutti

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Author(s): K. F. Walker, J. C. Newman

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