Effect of Material Macrostructural Parameters on Quantitative Stress Corrosion Cracking Plastic Zone Using Extended Finite Element Method in Welded Joints for Light Water Reactor Environment

Bashir, Rehmat; Xue, He; Zhang, Jianlong; Guo, Rui; Hayat, Nasir; Li, Ganbo; Bi, Yueqi

doi:10.5006/3498

Cited by 5 publications

(3 citation statements)

References 44 publications

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“…By enriching the standard finite element mesh with additional degrees of freedom to capture crack growth, XFEM enables accurate simulations of complex crack patterns and crack interactions [ 150 ]. Rehmit [ [142] , [151] , [152] ] investigates the effect of variations in macrostructural properties of Alloy 600 on stress corrosion cracking plastic zone ahead of the crack-tip using the extended finite element method (XFEM). The results show that the plastic zone is affected by stress intensity factors, yield strength, and hardening exponent “n" of the materials.…”

Section: Numerical Modelingmentioning

confidence: 99%

Prognosis methods of stress corrosion cracking under harsh environmental conditions

Hamdan,

Alsit,

Al Tahhan

et al. 2024

Heliyon

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Section: Numerical Modelingmentioning

confidence: 99%

Prognosis methods of stress corrosion cracking under harsh environmental conditions

Hamdan,

Alsit,

Al Tahhan

et al. 2024

Heliyon

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“…The F-A formula may be stated as follows in Eq. (2) using [ 50 ] Eq. (1) ;

Where k a denotes the oxidative reaction rate,

denotes the crack tip strain rate, and m denotes the solution and electrochemistry constants.…”

Section: Frdr Mechanismmentioning

confidence: 99%

Stress corrosion cracking under extreme near-neutral GCC conditions, parametric and comparative study using phase field modeling

Alsit

Hamdan

Tahhan

et al. 2023

Heliyon

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“…If r 0 is unsuitable, the predicting results may deviate from the actual data [ 11 ]. However, it is difficult to accurately predict it because the material microstructure is complicated and heterogeneous [ 12 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Material Heterogeneity on Environmentally Assisted Cracking Growth Rate of Alloy 600 for Safe-End Welded Joints

et al. 2021

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Environmentally assisted cracking (EAC) is essential in predicting light water reactors’ structural integrity and service life. Alloy 600 (equivalent to Inconel 600) has excellent corrosion resistance and is often used as a welding material in welded joints, but material properties of the alloy are heterogeneous in the welded zone due to the complex welding process. To investigate the EAC crack growth behavior of Alloy 600 for safe-end welded joints, the method taken in this paper concerns the probability prediction of the EAC crack growth rate. It considers the material heterogeneity, combining the film slip-dissolution/oxidation model, and the elastic-plastic finite element method. The strain rate at the crack tip is a unique factor to describe the mechanical state. Still, it is challenging to accurately predict it because of the complicated and heterogeneous material microstructure. In this study, the effects of material heterogeneity on the EAC crack growth behavior are statistically analyzed. The results show that the material heterogeneity of Alloy 600 can not be ignored because it affects the prediction accuracy of the crack growth rate. The randomness of yield strength has the most influence on the EAC growth rate, while Poisson’s ratio has the smallest.

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Effect of Material Macrostructural Parameters on Quantitative Stress Corrosion Cracking Plastic Zone Using Extended Finite Element Method in Welded Joints for Light Water Reactor Environment

Cited by 5 publications

References 44 publications

Prognosis methods of stress corrosion cracking under harsh environmental conditions

Prognosis methods of stress corrosion cracking under harsh environmental conditions

Stress corrosion cracking under extreme near-neutral GCC conditions, parametric and comparative study using phase field modeling

Effect of Material Heterogeneity on Environmentally Assisted Cracking Growth Rate of Alloy 600 for Safe-End Welded Joints

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