A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded components

Iman Shakeri; Weijian Wu; Alexander Michel; Martin A. Eder

doi:10.1111/ffe.14270

A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded components

Iman Shakeri^*, Weijian Wu, Alexander Michel, Martin A. Eder

^*Corresponding author for this work

Structural Integrity & Composites

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Abstract

The present study proposes a novel model to modify master S-N curves of components according to their load redistribution capability reflected in different boundary conditions (BCs) based on the fracture mechanics analysis. To that end, a comprehensive numerical study was conducted on a Single Edge Notch Bend (SENB) specimen constrained with different kinematic BCs using discrete fatigue crack growth (FCG) simulation. It was observed that BCs indeed can have a significant effect on the crack growth behavior and consequently on the resulting fatigue life under the same nominal loading conditions. The proposed model was applied to the S-N curve of a T-welded joint, and the predicted fatigue life was validated against 3D FCG simulations. Finally, FCG tests were conducted on SENB specimens to experimentally corroborate the effect of BCs on the FCG rate.

Original language	English
Number of pages	19
Journal	Fatigue and Fracture of Engineering Materials and Structures
DOIs	https://doi.org/10.1111/ffe.14270
Publication status	Published - 2024

Keywords

boundary conditions
fatigue crack growth
fatigue design
fatigue life
S-N curve
welded joints

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10.1111/ffe.14270

A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded componentsFinal published version, 4.35 MBLicence: CC BY

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title = "A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded components",

abstract = "The present study proposes a novel model to modify master S-N curves of components according to their load redistribution capability reflected in different boundary conditions (BCs) based on the fracture mechanics analysis. To that end, a comprehensive numerical study was conducted on a Single Edge Notch Bend (SENB) specimen constrained with different kinematic BCs using discrete fatigue crack growth (FCG) simulation. It was observed that BCs indeed can have a significant effect on the crack growth behavior and consequently on the resulting fatigue life under the same nominal loading conditions. The proposed model was applied to the S-N curve of a T-welded joint, and the predicted fatigue life was validated against 3D FCG simulations. Finally, FCG tests were conducted on SENB specimens to experimentally corroborate the effect of BCs on the FCG rate.",

keywords = "boundary conditions, fatigue crack growth, fatigue design, fatigue life, S-N curve, welded joints",

author = "Iman Shakeri and Weijian Wu and Alexander Michel and Eder, {Martin A.}",

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journal = "Fatigue and Fracture of Engineering Materials and Structures",

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TY - JOUR

T1 - A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded components

AU - Shakeri, Iman

AU - Wu, Weijian

AU - Michel, Alexander

AU - Eder, Martin A.

PY - 2024

Y1 - 2024

N2 - The present study proposes a novel model to modify master S-N curves of components according to their load redistribution capability reflected in different boundary conditions (BCs) based on the fracture mechanics analysis. To that end, a comprehensive numerical study was conducted on a Single Edge Notch Bend (SENB) specimen constrained with different kinematic BCs using discrete fatigue crack growth (FCG) simulation. It was observed that BCs indeed can have a significant effect on the crack growth behavior and consequently on the resulting fatigue life under the same nominal loading conditions. The proposed model was applied to the S-N curve of a T-welded joint, and the predicted fatigue life was validated against 3D FCG simulations. Finally, FCG tests were conducted on SENB specimens to experimentally corroborate the effect of BCs on the FCG rate.

AB - The present study proposes a novel model to modify master S-N curves of components according to their load redistribution capability reflected in different boundary conditions (BCs) based on the fracture mechanics analysis. To that end, a comprehensive numerical study was conducted on a Single Edge Notch Bend (SENB) specimen constrained with different kinematic BCs using discrete fatigue crack growth (FCG) simulation. It was observed that BCs indeed can have a significant effect on the crack growth behavior and consequently on the resulting fatigue life under the same nominal loading conditions. The proposed model was applied to the S-N curve of a T-welded joint, and the predicted fatigue life was validated against 3D FCG simulations. Finally, FCG tests were conducted on SENB specimens to experimentally corroborate the effect of BCs on the FCG rate.

KW - boundary conditions

KW - fatigue crack growth

KW - fatigue design

KW - fatigue life

KW - S-N curve

KW - welded joints

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U2 - 10.1111/ffe.14270

DO - 10.1111/ffe.14270

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JO - Fatigue and Fracture of Engineering Materials and Structures

JF - Fatigue and Fracture of Engineering Materials and Structures

ER -

A model for modifying the S-N curve considering the effect of boundary conditions on the fatigue crack growth of welded components

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