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Probabilistic fatigue crack propagation assessment of hydrogen pipelines

Hydrogen has been considered as an alternative energy source in the implementation of renewable energy. To harness hydrogen as an energy carrier in carbon-friendly approach, production, transportation and storage of hydrogen are considered as important aspects. Due to the nature of hydrogen being highly flammable and diffusive to the microstructure of the metals, structural integrity assessments of hydrogen infrastructures, especially transportation pipelines, have been addressed widely in research and development [1]. While subject to a static loading, hydrogen is known as the cause of reduced fracture toughness. In addition to that, gas pressure fluctuations and applied loads can also induce hydrogen-assisted fatigue crack propagation (FCP) [2].

FCP analyses are typically…

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Hydrogen has been considered as an alternative energy source in the implementation of renewable energy. To harness hydrogen as an energy carrier in carbon-friendly approach, production, transportation and storage of hydrogen are considered as important aspects. Due to the nature of hydrogen being highly flammable and diffusive to the microstructure of the metals, structural integrity assessments of hydrogen infrastructures, especially transportation pipelines, have been addressed widely in research and development [1]. While subject to a static loading, hydrogen is known as the cause of reduced fracture toughness. In addition to that, gas pressure fluctuations and applied loads can also induce hydrogen-assisted fatigue crack propagation (FCP) [2].

FCP analyses are typically evaluated using deterministic approach in most of the existing studies. However, governing parameters in the FCP analyses are not accurately predictable; the scattered fracture toughness in ductile-brittle transition region, wide range of stress and applied loading conditions, flaws of various sizes are not appropriate to consider as single values [3]. Moreover, estimations of material constants for the FCP evaluations are also associated with uncertainties. For these reasons, assessments for FCP should be performed probabilistically rather than deterministically. In this study, surface cracks of internally pressurized hydrogen pipelines are considered for probabilistic FCP assessment. The stress intensity factors and fatigue crack growth rates are calculated using closed form solutions provided in previous studies. The probabilistic fracture analysis is carried out by employing random sampling of inputs in Monte Carlo simulation. This probabilistic FCP model reveals the fatigue failure probability of damaged hydrogen pipelines based on randomly selected material and initial crack size parameters.

Reference
VAL5-2024-057

Title
Probabilistic fatigue crack propagation assessment of hydrogen pipelines
Author(s)
P.M. Kyaw, M. Braun
DOI
10.48447/VAL5-2024-057
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
Probabilistic analysis,fatigue,crack propagation,hydrogen pipeline

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2024
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E. Schäfer, V. Chmelko, M. Kučerková
10.48447/VAL5-2024-029
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
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conference paper (PDF)
English
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Price €25.00
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10.48447/VAL5-2024-001
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conference paper (PDF)
English
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Fatigue Crack Growth in 7075-T6 Aluminum Alloy under Single-Spike Overloads and Aircraft Spectra
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K. F. Walker, J. C. Newman
10.48447/VAL5-2024-001
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
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English
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conference paper (PDF)
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2024
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Modal driven load tailoring for efficient vibration fatigue assessment on non-stationary processes: A versatile approach exploiting the Fatigue Damage Spectrum
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VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
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Modal driven load tailoring for efficient vibration fatigue assessment on non-stationary processes: A versatile approach exploiting the Fatigue Damage Spectrum
G. Curti, T. Dengler, M. Palmieri, A. Trapp, P. Wolfsteiner, F. Cianetti, K. Schneider
10.48447/VAL5-2024-045
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
random vibration loading,non stationary loading,mission syntesis,fatigue damage spectrum,modal decomposition
Price €25.00
Online only
Data-driven load spectrum estimator for non-stationary random vibration loading
Author(s): D. Fräulin, A. Trapp, M. Hinz, P. Wolfsteiner
10.48447/VAL5-2024-024
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
random vibration loading,non-stationary loading,load spectrum estimator,spectral methods,machine learning 
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Data-driven load spectrum estimator for non-stationary random vibration loading
Data-driven load spectrum estimator for non-stationary random vibration loading
D. Fräulin, A. Trapp, M. Hinz, P. Wolfsteiner
10.48447/VAL5-2024-024
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
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Data-driven load spectrum estimator for non-stationary random vibration loading
D. Fräulin, A. Trapp, M. Hinz, P. Wolfsteiner
10.48447/VAL5-2024-024
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
random vibration loading,non-stationary loading,load spectrum estimator,spectral methods,machine learning
Price €25.00
Online only
Influence of variable amplitude loading on copper-alloyed components
Author(s): M. Hupka, M. Wächter, A. Esderts
10.48447/VAL5-2024-042
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Copper Alloys,Analytical Fatigue Assessment,Component-related Influences 
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Influence of variable amplitude loading on copper-alloyed components
Influence of variable amplitude loading on copper-alloyed components
M. Hupka, M. Wächter, A. Esderts
10.48447/VAL5-2024-042
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
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English
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1
Influence of variable amplitude loading on copper-alloyed components
M. Hupka, M. Wächter, A. Esderts
10.48447/VAL5-2024-042
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Copper Alloys,Analytical Fatigue Assessment,Component-related Influences
Price €25.00
Online only
Application of nonlinear damage accumulation rules for predicting fatigue life of additivelly manufactured composites
Author(s): J. Klemenc, J. Kajbic
10.48447/VAL5-2024-011
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
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1
Application of nonlinear damage accumulation rules for predicting fatigue life of additivelly manufactured composites
Application of nonlinear damage accumulation rules for predicting fatigue life of additivelly manufactured composites
J. Klemenc, J. Kajbic
10.48447/VAL5-2024-011
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
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1
Application of nonlinear damage accumulation rules for predicting fatigue life of additivelly manufactured composites
J. Klemenc, J. Kajbic
10.48447/VAL5-2024-011
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Additive manufactures,bio-degradable composites,variable amplitude loading,fatigue life,nonlinear damage accumulation hypotheses
Price €25.00
Online only
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
10.48447/VAL5-2024-037
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
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A Comparative Analysis: Time vs. Frequency Domain Definitions of the Fatemi-Socie Criterion
A Comparative Analysis: Time vs. Frequency Domain Definitions of the Fatemi-Socie Criterion
A. Niesłony, M. Böhm, M. Sgamma, A. Chiocca, F. Bucchi, F. Frendo
10.48447/VAL5-2024-037
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
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A Comparative Analysis: Time vs. Frequency Domain Definitions of the Fatemi-Socie Criterion
A. Niesłony, M. Böhm, M. Sgamma, A. Chiocca, F. Bucchi, F. Frendo
10.48447/VAL5-2024-037
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Fatemi-Socie criterion,frequency domain,vibration fatigue,multiaxial fatigue
Price €25.00
Online only
Fatigue life estimation of notched components under multiaxial non-proportional loading with variable amplitudes.
Author(s): J. Kraft, M. Vormwald
10.48447/VAL5-2024-035
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
multiaxial fatigue,critical plane,notches 
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1
Fatigue life estimation of notched components under multiaxial non-proportional loading with variable amplitudes.
Fatigue life estimation of notched components under multiaxial non-proportional loading with variable amplitudes.
J. Kraft, M. Vormwald
10.48447/VAL5-2024-035
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
multiaxial fatigue,critical plane,notches 
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1
Fatigue life estimation of notched components under multiaxial non-proportional loading with variable amplitudes.
J. Kraft, M. Vormwald
10.48447/VAL5-2024-035
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
multiaxial fatigue,critical plane,notches
Price €25.00
Online only
Application of the Local Strain Approach to estimate fatigue life of clinched joints under constant and variable amplitude loading in different loading conditions
Author(s): B. Spak, M. Schlicht, P. Froitzheim, W. Flügge, M. Kästner
10.48447/VAL5-2024-046
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Clinching,mechanical joining,Local Strain Approach,fatigue,variable amplitude loading 
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1
Application of the Local Strain Approach to estimate fatigue life of clinched joints under constant and variable amplitude loading in different loading conditions
Application of the Local Strain Approach to estimate fatigue life of clinched joints under constant and variable amplitude loading in different loading conditions
B. Spak, M. Schlicht, P. Froitzheim, W. Flügge, M. Kästner
10.48447/VAL5-2024-046
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
Clinching,mechanical joining,Local Strain Approach,fatigue,variable amplitude loading 
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1
Application of the Local Strain Approach to estimate fatigue life of clinched joints under constant and variable amplitude loading in different loading conditions
B. Spak, M. Schlicht, P. Froitzheim, W. Flügge, M. Kästner
10.48447/VAL5-2024-046
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Clinching,mechanical joining,Local Strain Approach,fatigue,variable amplitude loading
Price €25.00
Online only
Fatigue analysis of random variable loads acting on wheels for special off-highway applications from experimental data
Author(s): L. Solazzi, A. Mazzoni, N. Danzi, M. Cima
10.48447/VAL5-2024-022
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
random fatigue,damage counting,wheel,stress acquisition 
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1
Fatigue analysis of random variable loads acting on wheels for special off-highway applications from experimental data
Fatigue analysis of random variable loads acting on wheels for special off-highway applications from experimental data
L. Solazzi, A. Mazzoni, N. Danzi, M. Cima
10.48447/VAL5-2024-022
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
random fatigue,damage counting,wheel,stress acquisition 
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1
Fatigue analysis of random variable loads acting on wheels for special off-highway applications from experimental data
L. Solazzi, A. Mazzoni, N. Danzi, M. Cima
10.48447/VAL5-2024-022
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
random fatigue,damage counting,wheel,stress acquisition
Price €25.00
Online only
Dynamic fatigue analysis of a welded joints under sequential and simultaneous multi-axial random PSD loading
Author(s): A. Halfpenny, S. Vervoort
10.48447/VAL5-2024-027
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
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1
Dynamic fatigue analysis of a welded joints under sequential and simultaneous multi-axial random PSD loading
Dynamic fatigue analysis of a welded joints under sequential and simultaneous multi-axial random PSD loading
A. Halfpenny, S. Vervoort
10.48447/VAL5-2024-027
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
Fatigue,vibration,multiaxial,spot weld,battery pack 
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1
Dynamic fatigue analysis of a welded joints under sequential and simultaneous multi-axial random PSD loading
A. Halfpenny, S. Vervoort
10.48447/VAL5-2024-027
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Fatigue,vibration,multiaxial,spot weld,battery pack
Price €25.00
Online only
Accelerated vibration-fatigue characterization for 3D-printed structures: Application to fused-filament-fabricated PLA samples
Author(s): M. Česnik, J. Slavič, M. Boltežar
10.48447/VAL5-2024-028
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Accelerated fatigue test,Random-signal excitation,Specimen design,Fused filament fabrication 
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1
Accelerated vibration-fatigue characterization for 3D-printed structures: Application to fused-filament-fabricated PLA samples
Accelerated vibration-fatigue characterization for 3D-printed structures: Application to fused-filament-fabricated PLA samples
M. Česnik, J. Slavič, M. Boltežar
10.48447/VAL5-2024-028
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
Accelerated fatigue test,Random-signal excitation,Specimen design,Fused filament fabrication 
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1
Accelerated vibration-fatigue characterization for 3D-printed structures: Application to fused-filament-fabricated PLA samples
M. Česnik, J. Slavič, M. Boltežar
10.48447/VAL5-2024-028
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Accelerated fatigue test,Random-signal excitation,Specimen design,Fused filament fabrication
Price €25.00
Online only
A fatigue damage assessment approach in vibration fatigue exploiting the static approach
Author(s): M. Palmieri, G. Morettini, G. Zucca, F. Cianetti, C. Braccesi
10.48447/VAL5-2024-054
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Multibody Dynamics,Rigid Body Modeling,Frequency Domain Analysis,Fatigue Damage Evaluation,Random Loading Conditions 
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1
A fatigue damage assessment approach in vibration fatigue exploiting the static approach
A fatigue damage assessment approach in vibration fatigue exploiting the static approach
M. Palmieri, G. Morettini, G. Zucca, F. Cianetti, C. Braccesi
10.48447/VAL5-2024-054
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
Multibody Dynamics,Rigid Body Modeling,Frequency Domain Analysis,Fatigue Damage Evaluation,Random Loading Conditions 
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1
A fatigue damage assessment approach in vibration fatigue exploiting the static approach
M. Palmieri, G. Morettini, G. Zucca, F. Cianetti, C. Braccesi
10.48447/VAL5-2024-054
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
Multibody Dynamics,Rigid Body Modeling,Frequency Domain Analysis,Fatigue Damage Evaluation,Random Loading Conditions
Price €25.00
Online only
Modification of the Findley Damage Parameter for Fatigue Assessment under multi-axial proportional and non-proportional variable Amplitude Loading
Author(s): C. Fällgren, M. Vormwald
10.48447/VAL5-2024-021
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
fatigue,Findley parameter,non-proportional loading,multi-axial loading,critical plane method 
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1
Modification of the Findley Damage Parameter for Fatigue Assessment under multi-axial proportional and non-proportional variable Amplitude Loading
Modification of the Findley Damage Parameter for Fatigue Assessment under multi-axial proportional and non-proportional variable Amplitude Loading
C. Fällgren, M. Vormwald
10.48447/VAL5-2024-021
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
Publication type: conference paper (PDF)
English
fatigue,Findley parameter,non-proportional loading,multi-axial loading,critical plane method 
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            [id_feature_value] => 10810
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1
Modification of the Findley Damage Parameter for Fatigue Assessment under multi-axial proportional and non-proportional variable Amplitude Loading
C. Fällgren, M. Vormwald
10.48447/VAL5-2024-021
VAL5 - Fifth International Conference on Material and Component Performance under Variable Amplitude Loading
2024
conference paper (PDF)
English
fatigue,Findley parameter,non-proportional loading,multi-axial loading,critical plane method
Price €25.00
Online only