Numerical analysis of stress intensity factor and T-stress in pipeline of steel P264GH submitted to loading conditions

Numerical analysis of stress intensity factor and T-stress in pipeline of steel P264GH submitted to loading conditions

Stress singularities occur at crack tips, corners and material interfaces. The stress intensity factors and T-stresses are coefficients of structural components where the active stress singular and first regular stress terms, respectively, are denoted by William's eigen function expansion serie...

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Veröffentlicht in:Journal of Theoretical and Applied Mechanics (Warsaw) 2015-01, Vol.53 (3), p.665-672
Hauptverfasser: Moustabchir, Hassane, Arbaoui, Jamal, Zitouni, Azari, Hariri, Said, Dmytrakh, Ihor
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Sprache:eng
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Corners
Evolution
Mathematical analysis
Mathematical models
Pipelines
Stress intensity factor
Stresses
Structural steels
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container_title Journal of Theoretical and Applied Mechanics (Warsaw)
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creator Moustabchir, Hassane
Arbaoui, Jamal
Zitouni, Azari
Hariri, Said
Dmytrakh, Ihor
description Stress singularities occur at crack tips, corners and material interfaces. The stress intensity factors and T-stresses are coefficients of structural components where the active stress singular and first regular stress terms, respectively, are denoted by William's eigen function expansion series. A finite element analysis by CASTEM 2000 have been undertaken in order to determine the evolution of the T-stress and stress intensity factor terms in mode I for an arc of pipeline specimens with an external surface crack. A stress difference method described by Moustabchir et al. (2012) are adapted and, in the following step, the volumetric method is then embedded to compute the SIFs and T-stress near the crack tip. Different crack geometries combined with different length-to-thickness ratios are examined for the T-stress and stress-intensity factor. The revisited stress difference method employed here shows to be an accurate and robust scheme for evaluating the T-stress/SIFs in an arc of the pipeline.
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subjects Corners
Evolution
Mathematical analysis
Mathematical models
Pipelines
Stress intensity factor
Stresses
Structural steels
title Numerical analysis of stress intensity factor and T-stress in pipeline of steel P264GH submitted to loading conditions
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