V-Notched components under non-localized creeping condition: numerical evaluation of stresses and strains

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V-Notched components under non-localized creeping condition: numerical evaluation of stresses and strains. / Gallo, Pasquale; Berto, Filippo; Glinka, Grzegorz.

In: Procedia Structural Integrity, Vol. 2, 2016, p. 809-816.

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@article{a89fcf29000b4d8da3b45df44066bb76,
title = "V-Notched components under non-localized creeping condition: numerical evaluation of stresses and strains",
abstract = "Geometrical discontinues such as notches need to be carefully analysed by engineers because of the stress concentration generated by them. Notches become even more important when the component is subjected, in service, to very severe conditions, such as the high temperature fatigue and imposed visco-plastic behaviour such as creep.The aim of the paper is to present an improvement and extension of the existing notch tip creep stress-strain analysis method developed by Nu{\~n}ez and Glinka, validated for U-notches only, to a wide variety of blunt V-notches.The key in getting the extension to blunt V-notches is the assumption of the generalized Lazzarin-Tovo solution that allows a unified approach to the evaluation of linear elastic stress fields in the neighbourhood of both cracks and notches.Numerous examples have been analysed up to date, and the stress fields obtained according to the proposed method were compared with appropriate finite element data, showing a very good agreement.In view of the promising results, authors are considering possible further extension of the method to sharp V-notches and cracks introducing the concept of the Strain Energy Density (SED).",
keywords = "Creep, V-notches, stress fields, stress evaluation, strain energy density",
author = "Pasquale Gallo and Filippo Berto and Grzegorz Glinka",
year = "2016",
doi = "10.1016/j.prostr.2016.06.104",
language = "English",
volume = "2",
pages = "809--816",
journal = "Procedia Structural Integrity",
issn = "2452-3216",
publisher = "Elsevier",

}

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TY - JOUR

T1 - V-Notched components under non-localized creeping condition: numerical evaluation of stresses and strains

AU - Gallo, Pasquale

AU - Berto, Filippo

AU - Glinka, Grzegorz

PY - 2016

Y1 - 2016

N2 - Geometrical discontinues such as notches need to be carefully analysed by engineers because of the stress concentration generated by them. Notches become even more important when the component is subjected, in service, to very severe conditions, such as the high temperature fatigue and imposed visco-plastic behaviour such as creep.The aim of the paper is to present an improvement and extension of the existing notch tip creep stress-strain analysis method developed by Nuñez and Glinka, validated for U-notches only, to a wide variety of blunt V-notches.The key in getting the extension to blunt V-notches is the assumption of the generalized Lazzarin-Tovo solution that allows a unified approach to the evaluation of linear elastic stress fields in the neighbourhood of both cracks and notches.Numerous examples have been analysed up to date, and the stress fields obtained according to the proposed method were compared with appropriate finite element data, showing a very good agreement.In view of the promising results, authors are considering possible further extension of the method to sharp V-notches and cracks introducing the concept of the Strain Energy Density (SED).

AB - Geometrical discontinues such as notches need to be carefully analysed by engineers because of the stress concentration generated by them. Notches become even more important when the component is subjected, in service, to very severe conditions, such as the high temperature fatigue and imposed visco-plastic behaviour such as creep.The aim of the paper is to present an improvement and extension of the existing notch tip creep stress-strain analysis method developed by Nuñez and Glinka, validated for U-notches only, to a wide variety of blunt V-notches.The key in getting the extension to blunt V-notches is the assumption of the generalized Lazzarin-Tovo solution that allows a unified approach to the evaluation of linear elastic stress fields in the neighbourhood of both cracks and notches.Numerous examples have been analysed up to date, and the stress fields obtained according to the proposed method were compared with appropriate finite element data, showing a very good agreement.In view of the promising results, authors are considering possible further extension of the method to sharp V-notches and cracks introducing the concept of the Strain Energy Density (SED).

KW - Creep

KW - V-notches

KW - stress fields

KW - stress evaluation

KW - strain energy density

U2 - 10.1016/j.prostr.2016.06.104

DO - 10.1016/j.prostr.2016.06.104

M3 - Article

VL - 2

SP - 809

EP - 816

JO - Procedia Structural Integrity

JF - Procedia Structural Integrity

SN - 2452-3216

ER -

ID: 9462370