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A fatigue damage assessment approach in vibration fatigue exploiting the static approach

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Description

The dynamic simulation of structural components within dynamic systems under random loads is commonly addressed using multibody models, where flexible elements are often modeled using the modal approach. While incorporating flexibility allows for a more comprehensive understanding of its impact on the overall system dynamics, certain components are intentionally designed to function as rigid bodies. Consequently, including flexible elements in multibody models can lead to complex and time-consuming analyses in such cases. This motivates the adoption of rigid body multibody models, where components are characterized solely by their inertial properties. Dynamic forces applied to these components are then extracted for verification, and stress assessment is performed using the principle of superposition in the time domain. This study introduces a novel methodology by extending this approach to the frequency domain. By leveraging the simplicity of rigid multibody models and tapping into the computational capabilities of the frequency-domain method, this methodology proves to be a pragmatic and efficient means of evaluating fatigue damage in components exposed to random loading conditions. The proposed method offers a rapid, effective, and robust approach for verifying and designing rigid mechanical components integrated into dynamic systems subjected to random loads.

Reference: VAL5-2024-054

Title: A fatigue damage assessment approach in vibration fatigue exploiting the static approach
Author(s): M. Palmieri, G. Morettini, G. Zucca, F. Cianetti, C. Braccesi
DOI: 10.48447/VAL5-2024-054
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: Multibody Dynamics,Rigid Body Modeling,Frequency Domain Analysis,Fatigue Damage Evaluation,Random Loading Conditions

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Non-stationary vibration loading - Assessing its effects on structural dynamics and vibration fatigue

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Author(s): J. Klemenc, J. Kajbic

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Application of nonlinear damage accumulation rules for predicting fatigue life of additivelly manufactured composites

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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

€25.00

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Author(s): D. Benasciutti

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An efficient algorithm for critical plane search in random multiaxial fatigue based on Maximum Variance Method, 3D matrices and Hadamard’s element-wise product.

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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): J. Riebe, P. Hantschke, A. Griesing, M. Kästner

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Automatic operating state identification from load time series through unsupervised learning and fatigue damage regression

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Author(s): L. Solazzi, A. Mazzoni, N. Danzi, M. Cima

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Fatigue analysis of random variable loads acting on wheels for special off-highway applications from experimental data

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Author(s): T. Lecleve, S. Courtin, F. Szmytka, C. Mai

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

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Author(s): A. Niesłony, M. Böhm, M. Sgamma, A. Chiocca, F. Bucchi, F. Frendo

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

Publication type: conference paper (PDF)

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English

€25.00

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